LOG file for integration channel /P0_uux_wpwm/all_G1_1, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
44753
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9702186134822270E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 1
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 318 0.3853E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 483 0.3882E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1286 0.1717E+02 0.0000E+00 0.7287E-02
channel 4 : 2 F 0 1355 0.1692E+02 0.0000E+00 0.5186E-02
channel 5 : 3 F 0 5041 0.6332E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4835 0.6313E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 1 , 3157
with seed 52
Ranmar initialization seeds 5028 12585
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.808306D+02 0.808306D+02 1.00
muF1, muF1_reference: 0.808306D+02 0.808306D+02 1.00
muF2, muF2_reference: 0.808306D+02 0.808306D+02 1.00
QES, QES_reference: 0.808306D+02 0.808306D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12018860501793022
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11978281102946586
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.1898497557063456E-004 OLP: -2.1898497557063277E-004
COEFFICIENT SINGLE POLE:
MadFKS: -4.6163063434967634E-004 OLP: -4.6163063434924889E-004
FINITE:
OLP: -1.2848546087868930E-002
BORN: 0.19957249769190233
MOMENTA (Exyzm):
1 94.981452164336758 0.0000000000000000 0.0000000000000000 94.981452164336758 0.0000000000000000
2 94.981452164336758 -0.0000000000000000 -0.0000000000000000 -94.981452164336758 0.0000000000000000
3 94.981452164336758 -3.6431873567437814 -18.643462708597863 46.833846504029289 80.418999999999997
4 94.981452164336758 3.6431873567437814 18.643462708597863 -46.833846504029289 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.1898497557063456E-004 OLP: -2.1898497557063277E-004
COEFFICIENT SINGLE POLE:
MadFKS: -4.6163063434967629E-004 OLP: -4.6163063434924889E-004
REAL 3: keeping split order 1
ABS integral = 0.6893E+01 +/- 0.3193E-01 ( 0.463 %)
Integral = 0.6799E+01 +/- 0.3234E-01 ( 0.476 %)
Virtual = -.8571E-03 +/- 0.1267E-01 ( ******* %)
Virtual ratio = -.8122E-01 +/- 0.2729E-02 ( 3.360 %)
ABS virtual = 0.1178E+00 +/- 0.1266E-01 ( 10.747 %)
Born = 0.4038E-01 +/- 0.3000E-02 ( 7.429 %)
V 2 = -.8571E-03 +/- 0.1267E-01 ( ******* %)
B 2 = 0.4038E-01 +/- 0.3000E-02 ( 7.429 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6893E+01 +/- 0.3193E-01 ( 0.463 %)
accumulated results Integral = 0.6799E+01 +/- 0.3234E-01 ( 0.476 %)
accumulated results Virtual = -.8571E-03 +/- 0.1267E-01 ( ******* %)
accumulated results Virtual ratio = -.8122E-01 +/- 0.2729E-02 ( 3.360 %)
accumulated results ABS virtual = 0.1178E+00 +/- 0.1266E-01 ( 10.747 %)
accumulated results Born = 0.4038E-01 +/- 0.3000E-02 ( 7.429 %)
accumulated results V 2 = -.8571E-03 +/- 0.1267E-01 ( ******* %)
accumulated results B 2 = 0.4038E-01 +/- 0.3000E-02 ( 7.429 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1129 318 0.1456E+00 0.1412E+00 0.5000E-02
channel 2 : 1 T 1184 483 0.1640E+00 0.1623E+00 0.5000E-02
channel 3 : 2 T 5001 1286 0.6653E+00 0.6518E+00 0.5336E-02
channel 4 : 2 T 5046 1355 0.6993E+00 0.6841E+00 0.5000E-02
channel 5 : 3 T 18418 5041 0.2586E+01 0.2547E+01 0.5000E-02
channel 6 : 3 T 18377 4835 0.2633E+01 0.2612E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8932077783411083 +/- 3.1933634736213530E-002
Final result: 6.7986033927912546 +/- 3.2343625074271153E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 259
Stability unknown: 0
Stable PS point: 259
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 259
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 259
counters for the granny resonances
ntot 0
Time spent in Born : 0.208398134
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.47687054
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.54387605
Time spent in Integrated_CT : 1.10407877
Time spent in Virtuals : 4.32615805
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.57737780
Time spent in N1body_prefactor : 3.50463539E-02
Time spent in Adding_alphas_pdf : 0.796256900
Time spent in Reweight_scale : 3.30726433
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.17479610
Time spent in Applying_cuts : 0.210788071
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.23346996
Time spent in Other_tasks : 1.61105728
Time spent in Total : 29.6054382
Time in seconds: 32
LOG file for integration channel /P0_uux_wpwm/all_G1_2, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
44754
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9702186134822270E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 2
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 318 0.3853E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 483 0.3882E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1286 0.1717E+02 0.0000E+00 0.7287E-02
channel 4 : 2 F 0 1355 0.1692E+02 0.0000E+00 0.5186E-02
channel 5 : 3 F 0 5041 0.6332E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4835 0.6313E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 1 , 6314
with seed 52
Ranmar initialization seeds 5028 15742
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.814445D+02 0.814445D+02 1.00
muF1, muF1_reference: 0.814445D+02 0.814445D+02 1.00
muF2, muF2_reference: 0.814445D+02 0.814445D+02 1.00
QES, QES_reference: 0.814445D+02 0.814445D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12004900682420576
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.12027098736002975
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.5435914265179190E-004 OLP: -1.5435914265178531E-004
COEFFICIENT SINGLE POLE:
MadFKS: -2.5561817361888722E-004 OLP: -2.5561817361971777E-004
FINITE:
OLP: -6.5175404535839782E-003
BORN: 0.14067558543833616
MOMENTA (Exyzm):
1 84.820935037030054 0.0000000000000000 0.0000000000000000 84.820935037030054 0.0000000000000000
2 84.820935037030054 -0.0000000000000000 -0.0000000000000000 -84.820935037030054 0.0000000000000000
3 84.820935037030054 2.6823539674638024 1.0932202370346507 26.813901362215873 80.418999999999997
4 84.820935037030054 -2.6823539674638024 -1.0932202370346507 -26.813901362215873 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.5435914265179190E-004 OLP: -1.5435914265178531E-004
COEFFICIENT SINGLE POLE:
MadFKS: -2.5561817361888711E-004 OLP: -2.5561817361971777E-004
REAL 2: keeping split order 1
ABS integral = 0.6861E+01 +/- 0.3370E-01 ( 0.491 %)
Integral = 0.6764E+01 +/- 0.3409E-01 ( 0.504 %)
Virtual = 0.1612E-01 +/- 0.1350E-01 ( 83.710 %)
Virtual ratio = -.8057E-01 +/- 0.2828E-02 ( 3.510 %)
ABS virtual = 0.1339E+00 +/- 0.1348E-01 ( 10.068 %)
Born = 0.4499E-01 +/- 0.4938E-02 ( 10.976 %)
V 2 = 0.1612E-01 +/- 0.1350E-01 ( 83.710 %)
B 2 = 0.4499E-01 +/- 0.4938E-02 ( 10.976 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6861E+01 +/- 0.3370E-01 ( 0.491 %)
accumulated results Integral = 0.6764E+01 +/- 0.3409E-01 ( 0.504 %)
accumulated results Virtual = 0.1612E-01 +/- 0.1350E-01 ( 83.710 %)
accumulated results Virtual ratio = -.8057E-01 +/- 0.2828E-02 ( 3.510 %)
accumulated results ABS virtual = 0.1339E+00 +/- 0.1348E-01 ( 10.068 %)
accumulated results Born = 0.4499E-01 +/- 0.4938E-02 ( 10.976 %)
accumulated results V 2 = 0.1612E-01 +/- 0.1350E-01 ( 83.710 %)
accumulated results B 2 = 0.4499E-01 +/- 0.4938E-02 ( 10.976 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1137 318 0.1434E+00 0.1433E+00 0.5000E-02
channel 2 : 1 T 1118 483 0.1464E+00 0.1439E+00 0.5000E-02
channel 3 : 2 T 5019 1286 0.6682E+00 0.6629E+00 0.5000E-02
channel 4 : 2 T 4986 1355 0.6811E+00 0.6624E+00 0.5000E-02
channel 5 : 3 T 18535 5041 0.2621E+01 0.2598E+01 0.5000E-02
channel 6 : 3 T 18362 4835 0.2600E+01 0.2554E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8610844584906374 +/- 3.3698268413525120E-002
Final result: 6.7643198977986678 +/- 3.4093948957070949E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 255
Stability unknown: 0
Stable PS point: 255
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 255
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 255
counters for the granny resonances
ntot 0
Time spent in Born : 0.209106058
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.50086069
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.52674091
Time spent in Integrated_CT : 1.10710812
Time spent in Virtuals : 4.26373196
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.55598474
Time spent in N1body_prefactor : 3.46978977E-02
Time spent in Adding_alphas_pdf : 0.798478484
Time spent in Reweight_scale : 3.31131673
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.10727763
Time spent in Applying_cuts : 0.199829847
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.23853350
Time spent in Other_tasks : 1.60740280
Time spent in Total : 29.4610691
Time in seconds: 32
LOG file for integration channel /P0_uux_wpwm/all_G1_3, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
35402
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9702186134822270E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 3
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 318 0.3853E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 483 0.3882E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1286 0.1717E+02 0.0000E+00 0.7287E-02
channel 4 : 2 F 0 1355 0.1692E+02 0.0000E+00 0.5186E-02
channel 5 : 3 F 0 5041 0.6332E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4835 0.6313E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 1 , 9471
with seed 52
Ranmar initialization seeds 5028 18899
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.807759D+02 0.807759D+02 1.00
muF1, muF1_reference: 0.807759D+02 0.807759D+02 1.00
muF2, muF2_reference: 0.807759D+02 0.807759D+02 1.00
QES, QES_reference: 0.807759D+02 0.807759D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12020111666178340
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
REAL 3: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.12011036327053197
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.8567081711420627E-004 OLP: -1.8567081711420107E-004
COEFFICIENT SINGLE POLE:
MadFKS: -3.5873653494511508E-004 OLP: -3.5873653494534747E-004
FINITE:
OLP: -9.7571549446453659E-003
BORN: 0.16921155720122164
MOMENTA (Exyzm):
1 88.808729448856838 0.0000000000000000 0.0000000000000000 88.808729448856838 0.0000000000000000
2 88.808729448856838 -0.0000000000000000 -0.0000000000000000 -88.808729448856838 0.0000000000000000
3 88.808729448856838 9.8519818902009924 4.9931206371538916 36.024742392669957 80.418999999999997
4 88.808729448856838 -9.8519818902009924 -4.9931206371538916 -36.024742392669957 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.8567081711420627E-004 OLP: -1.8567081711420107E-004
COEFFICIENT SINGLE POLE:
MadFKS: -3.5873653494511502E-004 OLP: -3.5873653494534747E-004
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6849E+01 +/- 0.3575E-01 ( 0.522 %)
Integral = 0.6768E+01 +/- 0.3607E-01 ( 0.533 %)
Virtual = -.1300E-02 +/- 0.1106E-01 ( 850.274 %)
Virtual ratio = -.8199E-01 +/- 0.2693E-02 ( 3.284 %)
ABS virtual = 0.1015E+00 +/- 0.1105E-01 ( 10.883 %)
Born = 0.3809E-01 +/- 0.3061E-02 ( 8.036 %)
V 2 = -.1300E-02 +/- 0.1106E-01 ( 850.274 %)
B 2 = 0.3809E-01 +/- 0.3061E-02 ( 8.036 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6849E+01 +/- 0.3575E-01 ( 0.522 %)
accumulated results Integral = 0.6768E+01 +/- 0.3607E-01 ( 0.533 %)
accumulated results Virtual = -.1300E-02 +/- 0.1106E-01 ( 850.274 %)
accumulated results Virtual ratio = -.8199E-01 +/- 0.2693E-02 ( 3.284 %)
accumulated results ABS virtual = 0.1015E+00 +/- 0.1105E-01 ( 10.883 %)
accumulated results Born = 0.3809E-01 +/- 0.3061E-02 ( 8.036 %)
accumulated results V 2 = -.1300E-02 +/- 0.1106E-01 ( 850.274 %)
accumulated results B 2 = 0.3809E-01 +/- 0.3061E-02 ( 8.036 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1109 318 0.1447E+00 0.1446E+00 0.5000E-02
channel 2 : 1 T 1198 483 0.1614E+00 0.1578E+00 0.5000E-02
channel 3 : 2 T 5133 1286 0.6775E+00 0.6637E+00 0.5000E-02
channel 4 : 2 T 5024 1355 0.6770E+00 0.6706E+00 0.5000E-02
channel 5 : 3 T 18227 5041 0.2551E+01 0.2528E+01 0.5000E-02
channel 6 : 3 T 18456 4835 0.2637E+01 0.2603E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8489757553012955 +/- 3.5753767489354646E-002
Final result: 6.7678724390782889 +/- 3.6066610407503259E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 245
Stability unknown: 0
Stable PS point: 245
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 245
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 245
counters for the granny resonances
ntot 0
Time spent in Born : 0.263567626
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.98837948
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.70765102
Time spent in Integrated_CT : 1.30010509
Time spent in Virtuals : 4.76463318
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.92984247
Time spent in N1body_prefactor : 5.47818914E-02
Time spent in Adding_alphas_pdf : 0.967229605
Time spent in Reweight_scale : 4.38378572
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.38021111
Time spent in Applying_cuts : 0.295764744
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.20511341
Time spent in Other_tasks : 2.38671875
Time spent in Total : 34.6277809
Time in seconds: 43
LOG file for integration channel /P0_uux_wpwm/all_G1_4, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
35401
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9702186134822270E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 4
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 318 0.3853E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 483 0.3882E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1286 0.1717E+02 0.0000E+00 0.7287E-02
channel 4 : 2 F 0 1355 0.1692E+02 0.0000E+00 0.5186E-02
channel 5 : 3 F 0 5041 0.6332E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4835 0.6313E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 1 , 12628
with seed 52
Ranmar initialization seeds 5028 22056
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.811148D+02 0.811148D+02 1.00
muF1, muF1_reference: 0.811148D+02 0.811148D+02 1.00
muF2, muF2_reference: 0.811148D+02 0.811148D+02 1.00
QES, QES_reference: 0.811148D+02 0.811148D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12012381176337963
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.11997834055080027
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.4743019668492023E-004 OLP: -2.4743019668492402E-004
COEFFICIENT SINGLE POLE:
MadFKS: -5.5796580709306480E-004 OLP: -5.5796580709309191E-004
FINITE:
OLP: -1.4984412878983010E-002
BORN: 0.22549612012482731
MOMENTA (Exyzm):
1 95.960388534286878 0.0000000000000000 0.0000000000000000 95.960388534286878 0.0000000000000000
2 95.960388534286878 -0.0000000000000000 -0.0000000000000000 -95.960388534286878 0.0000000000000000
3 95.960388534286878 -9.8701713568974334 -10.939354992567475 50.240330775019473 80.418999999999997
4 95.960388534286878 9.8701713568974334 10.939354992567475 -50.240330775019473 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.4743019668492023E-004 OLP: -2.4743019668492402E-004
COEFFICIENT SINGLE POLE:
MadFKS: -5.5796580709306491E-004 OLP: -5.5796580709309191E-004
ABS integral = 0.6881E+01 +/- 0.3543E-01 ( 0.515 %)
Integral = 0.6766E+01 +/- 0.3588E-01 ( 0.530 %)
Virtual = -.1345E-01 +/- 0.1196E-01 ( 88.929 %)
Virtual ratio = -.8834E-01 +/- 0.4952E-02 ( 5.605 %)
ABS virtual = 0.1204E+00 +/- 0.1195E-01 ( 9.921 %)
Born = 0.3592E-01 +/- 0.2919E-02 ( 8.126 %)
V 2 = -.1345E-01 +/- 0.1196E-01 ( 88.929 %)
B 2 = 0.3592E-01 +/- 0.2919E-02 ( 8.126 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6881E+01 +/- 0.3543E-01 ( 0.515 %)
accumulated results Integral = 0.6766E+01 +/- 0.3588E-01 ( 0.530 %)
accumulated results Virtual = -.1345E-01 +/- 0.1196E-01 ( 88.929 %)
accumulated results Virtual ratio = -.8834E-01 +/- 0.4952E-02 ( 5.605 %)
accumulated results ABS virtual = 0.1204E+00 +/- 0.1195E-01 ( 9.921 %)
accumulated results Born = 0.3592E-01 +/- 0.2919E-02 ( 8.126 %)
accumulated results V 2 = -.1345E-01 +/- 0.1196E-01 ( 88.929 %)
accumulated results B 2 = 0.3592E-01 +/- 0.2919E-02 ( 8.126 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1110 318 0.1505E+00 0.1449E+00 0.5000E-02
channel 2 : 1 T 1145 483 0.1495E+00 0.1465E+00 0.5000E-02
channel 3 : 2 T 5022 1286 0.6790E+00 0.6606E+00 0.5366E-02
channel 4 : 2 T 4976 1355 0.6750E+00 0.6654E+00 0.5000E-02
channel 5 : 3 T 18568 5041 0.2632E+01 0.2586E+01 0.5000E-02
channel 6 : 3 T 18338 4835 0.2596E+01 0.2563E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8813584856790575 +/- 3.5431519399705277E-002
Final result: 6.7663309247359882 +/- 3.5879401598825279E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 237
Stability unknown: 0
Stable PS point: 237
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 237
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 237
counters for the granny resonances
ntot 0
Time spent in Born : 0.262570322
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.02284718
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.67665267
Time spent in Integrated_CT : 1.29875517
Time spent in Virtuals : 4.64543867
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.92430973
Time spent in N1body_prefactor : 5.44122681E-02
Time spent in Adding_alphas_pdf : 0.962706566
Time spent in Reweight_scale : 4.38984203
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.38759947
Time spent in Applying_cuts : 0.294800431
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.20227385
Time spent in Other_tasks : 2.36837387
Time spent in Total : 34.4905853
Time in seconds: 41
LOG file for integration channel /P0_uux_wpwm/all_G1_5, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
35398
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9702186134822270E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 5
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 318 0.3853E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 483 0.3882E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1286 0.1717E+02 0.0000E+00 0.7287E-02
channel 4 : 2 F 0 1355 0.1692E+02 0.0000E+00 0.5186E-02
channel 5 : 3 F 0 5041 0.6332E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4835 0.6313E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 1 , 15785
with seed 52
Ranmar initialization seeds 5028 25213
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.809970D+02 0.809970D+02 1.00
muF1, muF1_reference: 0.809970D+02 0.809970D+02 1.00
muF2, muF2_reference: 0.809970D+02 0.809970D+02 1.00
QES, QES_reference: 0.809970D+02 0.809970D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12015063600891224
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
REAL 3: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.11937389534729323
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -9.8157053549349739E-004 OLP: -9.8157053549346833E-004
COEFFICIENT SINGLE POLE:
MadFKS: -2.5890864201344194E-003 OLP: -2.5890864201345721E-003
FINITE:
OLP: -6.9344777713581468E-002
BORN: 0.89455672892055871
MOMENTA (Exyzm):
1 153.04306981439225 0.0000000000000000 0.0000000000000000 153.04306981439225 0.0000000000000000
2 153.04306981439225 -0.0000000000000000 -0.0000000000000000 -153.04306981439225 0.0000000000000000
3 153.04306981439225 -2.3814587694181117 -25.835826394108757 127.60017392572779 80.418999999999997
4 153.04306981439225 2.3814587694181117 25.835826394108757 -127.60017392572779 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -9.8157053549349739E-004 OLP: -9.8157053549346833E-004
COEFFICIENT SINGLE POLE:
MadFKS: -2.5890864201344212E-003 OLP: -2.5890864201345721E-003
ABS integral = 0.6863E+01 +/- 0.3090E-01 ( 0.450 %)
Integral = 0.6795E+01 +/- 0.3121E-01 ( 0.459 %)
Virtual = -.3463E-02 +/- 0.8420E-02 ( 243.160 %)
Virtual ratio = -.7974E-01 +/- 0.2824E-02 ( 3.541 %)
ABS virtual = 0.8878E-01 +/- 0.8411E-02 ( 9.473 %)
Born = 0.3434E-01 +/- 0.2503E-02 ( 7.288 %)
V 2 = -.3463E-02 +/- 0.8420E-02 ( 243.160 %)
B 2 = 0.3434E-01 +/- 0.2503E-02 ( 7.288 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6863E+01 +/- 0.3090E-01 ( 0.450 %)
accumulated results Integral = 0.6795E+01 +/- 0.3121E-01 ( 0.459 %)
accumulated results Virtual = -.3463E-02 +/- 0.8420E-02 ( 243.160 %)
accumulated results Virtual ratio = -.7974E-01 +/- 0.2824E-02 ( 3.541 %)
accumulated results ABS virtual = 0.8878E-01 +/- 0.8411E-02 ( 9.473 %)
accumulated results Born = 0.3434E-01 +/- 0.2503E-02 ( 7.288 %)
accumulated results V 2 = -.3463E-02 +/- 0.8420E-02 ( 243.160 %)
accumulated results B 2 = 0.3434E-01 +/- 0.2503E-02 ( 7.288 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1140 318 0.1485E+00 0.1467E+00 0.5000E-02
channel 2 : 1 T 1131 483 0.1450E+00 0.1427E+00 0.5000E-02
channel 3 : 2 T 5016 1286 0.6618E+00 0.6512E+00 0.5000E-02
channel 4 : 2 T 4883 1355 0.6642E+00 0.6548E+00 0.5000E-02
channel 5 : 3 T 18630 5041 0.2619E+01 0.2603E+01 0.5000E-02
channel 6 : 3 T 18354 4835 0.2624E+01 0.2596E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8631352415349669 +/- 3.0901371249624079E-002
Final result: 6.7948442693183537 +/- 3.1206904923967802E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 236
Stability unknown: 0
Stable PS point: 236
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 236
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 236
counters for the granny resonances
ntot 0
Time spent in Born : 0.156970397
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 3.23120236
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 0.921265721
Time spent in Integrated_CT : 0.706706524
Time spent in Virtuals : 2.49279881
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 2.13527870
Time spent in N1body_prefactor : 3.85371000E-02
Time spent in Adding_alphas_pdf : 0.518822908
Time spent in Reweight_scale : 2.69175148
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 0.783273041
Time spent in Applying_cuts : 0.178626582
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 3.92291546
Time spent in Other_tasks : 1.55985260
Time spent in Total : 19.3380013
Time in seconds: 22
LOG file for integration channel /P0_uux_wpwm/all_G1_6, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
27480
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9702186134822270E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 6
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 318 0.3853E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 483 0.3882E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1286 0.1717E+02 0.0000E+00 0.7287E-02
channel 4 : 2 F 0 1355 0.1692E+02 0.0000E+00 0.5186E-02
channel 5 : 3 F 0 5041 0.6332E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4835 0.6313E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 1 , 18942
with seed 52
Ranmar initialization seeds 5028 28370
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.815286D+02 0.815286D+02 1.00
muF1, muF1_reference: 0.815286D+02 0.815286D+02 1.00
muF2, muF2_reference: 0.815286D+02 0.815286D+02 1.00
QES, QES_reference: 0.815286D+02 0.815286D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12002999198110322
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12023681228138262
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.1301166668977484E-004 OLP: -1.1301166668977624E-004
COEFFICIENT SINGLE POLE:
MadFKS: -1.2521173530566474E-004 OLP: -1.2521173529951118E-004
FINITE:
OLP: -2.0326947904261367E-003
BORN: 0.10299346122185550
MOMENTA (Exyzm):
1 82.121936987535449 0.0000000000000000 0.0000000000000000 82.121936987535449 0.0000000000000000
2 82.121936987535449 -0.0000000000000000 -0.0000000000000000 -82.121936987535449 0.0000000000000000
3 82.121936987535449 2.5026227611576535 5.1095192885782472 15.634150617789446 80.418999999999997
4 82.121936987535449 -2.5026227611576535 -5.1095192885782472 -15.634150617789444 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.1301166668977484E-004 OLP: -1.1301166668977624E-004
COEFFICIENT SINGLE POLE:
MadFKS: -1.2521173530566479E-004 OLP: -1.2521173529951118E-004
REAL 2: keeping split order 1
ABS integral = 0.6860E+01 +/- 0.3160E-01 ( 0.461 %)
Integral = 0.6767E+01 +/- 0.3201E-01 ( 0.473 %)
Virtual = -.6182E-02 +/- 0.1114E-01 ( 180.152 %)
Virtual ratio = -.8092E-01 +/- 0.3446E-02 ( 4.258 %)
ABS virtual = 0.1113E+00 +/- 0.1113E-01 ( 9.996 %)
Born = 0.3862E-01 +/- 0.3040E-02 ( 7.872 %)
V 2 = -.6182E-02 +/- 0.1114E-01 ( 180.152 %)
B 2 = 0.3862E-01 +/- 0.3040E-02 ( 7.872 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6860E+01 +/- 0.3160E-01 ( 0.461 %)
accumulated results Integral = 0.6767E+01 +/- 0.3201E-01 ( 0.473 %)
accumulated results Virtual = -.6182E-02 +/- 0.1114E-01 ( 180.152 %)
accumulated results Virtual ratio = -.8092E-01 +/- 0.3446E-02 ( 4.258 %)
accumulated results ABS virtual = 0.1113E+00 +/- 0.1113E-01 ( 9.996 %)
accumulated results Born = 0.3862E-01 +/- 0.3040E-02 ( 7.872 %)
accumulated results V 2 = -.6182E-02 +/- 0.1114E-01 ( 180.152 %)
accumulated results B 2 = 0.3862E-01 +/- 0.3040E-02 ( 7.872 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1141 318 0.1586E+00 0.1498E+00 0.5000E-02
channel 2 : 1 T 1128 483 0.1465E+00 0.1464E+00 0.5000E-02
channel 3 : 2 T 5120 1286 0.6808E+00 0.6705E+00 0.5000E-02
channel 4 : 2 T 4963 1355 0.6755E+00 0.6617E+00 0.5000E-02
channel 5 : 3 T 18481 5041 0.2577E+01 0.2551E+01 0.5000E-02
channel 6 : 3 T 18323 4835 0.2621E+01 0.2587E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8596699861830315 +/- 3.1603536624729610E-002
Final result: 6.7670647418971486 +/- 3.2007141278629171E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 257
Stability unknown: 0
Stable PS point: 257
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 257
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 257
counters for the granny resonances
ntot 0
Time spent in Born : 0.249168351
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.90181255
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.53859234
Time spent in Integrated_CT : 1.19477224
Time spent in Virtuals : 4.65584183
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.62759280
Time spent in N1body_prefactor : 5.42047620E-02
Time spent in Adding_alphas_pdf : 0.929050088
Time spent in Reweight_scale : 4.18335438
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.34568441
Time spent in Applying_cuts : 0.308296323
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.07163334
Time spent in Other_tasks : 2.59088516
Time spent in Total : 33.6508865
Time in seconds: 65
LOG file for integration channel /P0_uux_wpwm/all_G1_7, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
27483
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9702186134822270E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 7
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 318 0.3853E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 483 0.3882E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1286 0.1717E+02 0.0000E+00 0.7287E-02
channel 4 : 2 F 0 1355 0.1692E+02 0.0000E+00 0.5186E-02
channel 5 : 3 F 0 5041 0.6332E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4835 0.6313E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 1 , 22099
with seed 52
Ranmar initialization seeds 5028 1446
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.805340D+02 0.805340D+02 1.00
muF1, muF1_reference: 0.805340D+02 0.805340D+02 1.00
muF2, muF2_reference: 0.805340D+02 0.805340D+02 1.00
QES, QES_reference: 0.805340D+02 0.805340D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12025654312326622
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12025232615179780
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.6046102699595688E-004 OLP: -1.6046102699595602E-004
COEFFICIENT SINGLE POLE:
MadFKS: -2.7574476196347210E-004 OLP: -2.7574476196390936E-004
FINITE:
OLP: -7.1881206702811848E-003
BORN: 0.14623655278789446
MOMENTA (Exyzm):
1 85.456493916411389 0.0000000000000000 0.0000000000000000 85.456493916411389 0.0000000000000000
2 85.456493916411389 -0.0000000000000000 -0.0000000000000000 -85.456493916411389 0.0000000000000000
3 85.456493916411389 4.4485148036815421 1.2971089226239139 28.532876054998958 80.418999999999997
4 85.456493916411389 -4.4485148036815421 -1.2971089226239139 -28.532876054998958 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.6046102699595688E-004 OLP: -1.6046102699595602E-004
COEFFICIENT SINGLE POLE:
MadFKS: -2.7574476196347210E-004 OLP: -2.7574476196390936E-004
ABS integral = 0.6813E+01 +/- 0.2830E-01 ( 0.415 %)
Integral = 0.6722E+01 +/- 0.2874E-01 ( 0.428 %)
Virtual = -.3834E-02 +/- 0.1097E-01 ( 286.116 %)
Virtual ratio = -.7860E-01 +/- 0.3210E-02 ( 4.083 %)
ABS virtual = 0.1128E+00 +/- 0.1096E-01 ( 9.717 %)
Born = 0.4064E-01 +/- 0.3044E-02 ( 7.490 %)
V 2 = -.3834E-02 +/- 0.1097E-01 ( 286.116 %)
B 2 = 0.4064E-01 +/- 0.3044E-02 ( 7.490 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6813E+01 +/- 0.2830E-01 ( 0.415 %)
accumulated results Integral = 0.6722E+01 +/- 0.2874E-01 ( 0.428 %)
accumulated results Virtual = -.3834E-02 +/- 0.1097E-01 ( 286.116 %)
accumulated results Virtual ratio = -.7860E-01 +/- 0.3210E-02 ( 4.083 %)
accumulated results ABS virtual = 0.1128E+00 +/- 0.1096E-01 ( 9.717 %)
accumulated results Born = 0.4064E-01 +/- 0.3044E-02 ( 7.490 %)
accumulated results V 2 = -.3834E-02 +/- 0.1097E-01 ( 286.116 %)
accumulated results B 2 = 0.4064E-01 +/- 0.3044E-02 ( 7.490 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1070 318 0.1436E+00 0.1429E+00 0.5000E-02
channel 2 : 1 T 1140 483 0.1489E+00 0.1469E+00 0.5000E-02
channel 3 : 2 T 4983 1286 0.6438E+00 0.6338E+00 0.5000E-02
channel 4 : 2 T 4931 1355 0.6804E+00 0.6668E+00 0.5000E-02
channel 5 : 3 T 18603 5041 0.2586E+01 0.2561E+01 0.5000E-02
channel 6 : 3 T 18429 4835 0.2610E+01 0.2571E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8129604230659204 +/- 2.8304228083279658E-002
Final result: 6.7216525351805183 +/- 2.8744948896203375E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 276
Stability unknown: 0
Stable PS point: 276
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 276
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 276
counters for the granny resonances
ntot 0
Time spent in Born : 0.255307853
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.86516905
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.64956295
Time spent in Integrated_CT : 1.26974773
Time spent in Virtuals : 5.32697678
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.79857993
Time spent in N1body_prefactor : 5.45021445E-02
Time spent in Adding_alphas_pdf : 0.947077394
Time spent in Reweight_scale : 4.27502394
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.37395513
Time spent in Applying_cuts : 0.326957881
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.05105352
Time spent in Other_tasks : 2.49188995
Time spent in Total : 34.6858025
Time in seconds: 65
LOG file for integration channel /P0_uux_wpwm/all_G1_8, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
27482
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9702186134822270E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 8
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 318 0.3853E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 483 0.3882E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1286 0.1717E+02 0.0000E+00 0.7287E-02
channel 4 : 2 F 0 1355 0.1692E+02 0.0000E+00 0.5186E-02
channel 5 : 3 F 0 5041 0.6332E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4835 0.6313E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 1 , 25256
with seed 52
Ranmar initialization seeds 5028 4603
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.805575D+02 0.805575D+02 1.00
muF1, muF1_reference: 0.805575D+02 0.805575D+02 1.00
muF2, muF2_reference: 0.805575D+02 0.805575D+02 1.00
QES, QES_reference: 0.805575D+02 0.805575D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12025116292076236
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.12000320090598027
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.3534378398503211E-004 OLP: -2.3534378398503265E-004
COEFFICIENT SINGLE POLE:
MadFKS: -5.1965892998172953E-004 OLP: -5.1965892998178677E-004
FINITE:
OLP: -1.3859123057789666E-002
BORN: 0.21448113809527813
MOMENTA (Exyzm):
1 94.543606890910141 0.0000000000000000 0.0000000000000000 94.543606890910141 0.0000000000000000
2 94.543606890910141 -0.0000000000000000 -0.0000000000000000 -94.543606890910141 0.0000000000000000
3 94.543606890910141 9.6134252896793591 10.326880754714765 47.667763016745482 80.418999999999997
4 94.543606890910141 -9.6134252896793591 -10.326880754714765 -47.667763016745482 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.3534378398503211E-004 OLP: -2.3534378398503265E-004
COEFFICIENT SINGLE POLE:
MadFKS: -5.1965892998172953E-004 OLP: -5.1965892998178677E-004
ABS integral = 0.6853E+01 +/- 0.3345E-01 ( 0.488 %)
Integral = 0.6756E+01 +/- 0.3385E-01 ( 0.501 %)
Virtual = -.1758E-01 +/- 0.1022E-01 ( 58.117 %)
Virtual ratio = -.8299E-01 +/- 0.3767E-02 ( 4.539 %)
ABS virtual = 0.1023E+00 +/- 0.1021E-01 ( 9.981 %)
Born = 0.3623E-01 +/- 0.2861E-02 ( 7.898 %)
V 2 = -.1758E-01 +/- 0.1022E-01 ( 58.117 %)
B 2 = 0.3623E-01 +/- 0.2861E-02 ( 7.898 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6853E+01 +/- 0.3345E-01 ( 0.488 %)
accumulated results Integral = 0.6756E+01 +/- 0.3385E-01 ( 0.501 %)
accumulated results Virtual = -.1758E-01 +/- 0.1022E-01 ( 58.117 %)
accumulated results Virtual ratio = -.8299E-01 +/- 0.3767E-02 ( 4.539 %)
accumulated results ABS virtual = 0.1023E+00 +/- 0.1021E-01 ( 9.981 %)
accumulated results Born = 0.3623E-01 +/- 0.2861E-02 ( 7.898 %)
accumulated results V 2 = -.1758E-01 +/- 0.1022E-01 ( 58.117 %)
accumulated results B 2 = 0.3623E-01 +/- 0.2861E-02 ( 7.898 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1194 318 0.1546E+00 0.1537E+00 0.5000E-02
channel 2 : 1 T 1096 483 0.1514E+00 0.1475E+00 0.5000E-02
channel 3 : 2 T 5049 1286 0.6611E+00 0.6580E+00 0.5000E-02
channel 4 : 2 T 4952 1355 0.6893E+00 0.6673E+00 0.5000E-02
channel 5 : 3 T 18482 5041 0.2568E+01 0.2533E+01 0.5000E-02
channel 6 : 3 T 18378 4835 0.2629E+01 0.2597E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8532117445291689 +/- 3.3454664836697692E-002
Final result: 6.7562076256839019 +/- 3.3853707645292157E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 237
Stability unknown: 0
Stable PS point: 237
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 237
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 237
counters for the granny resonances
ntot 0
Time spent in Born : 0.259670228
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.92536736
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.65721905
Time spent in Integrated_CT : 1.27681255
Time spent in Virtuals : 4.69126320
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.83469200
Time spent in N1body_prefactor : 5.40959686E-02
Time spent in Adding_alphas_pdf : 0.958509922
Time spent in Reweight_scale : 4.30553913
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.36024761
Time spent in Applying_cuts : 0.308642507
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.09619713
Time spent in Other_tasks : 2.51142693
Time spent in Total : 34.2396851
Time in seconds: 65
LOG file for integration channel /P0_uux_wpwm/all_G1_9, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
27481
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9702186134822270E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 9
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 318 0.3853E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 483 0.3882E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1286 0.1717E+02 0.0000E+00 0.7287E-02
channel 4 : 2 F 0 1355 0.1692E+02 0.0000E+00 0.5186E-02
channel 5 : 3 F 0 5041 0.6332E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4835 0.6313E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 1 , 28413
with seed 52
Ranmar initialization seeds 5028 7760
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.810869D+02 0.810869D+02 1.00
muF1, muF1_reference: 0.810869D+02 0.810869D+02 1.00
muF2, muF2_reference: 0.810869D+02 0.810869D+02 1.00
QES, QES_reference: 0.810869D+02 0.810869D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12013015932990564
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.12028191043899664
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.0934542588426404E-004 OLP: -1.0934542588432954E-004
COEFFICIENT SINGLE POLE:
MadFKS: -1.1369617202236265E-004 OLP: -1.1369617202405653E-004
FINITE:
OLP: -8.7800445653169184E-004
BORN: 9.9652223619644945E-002
MOMENTA (Exyzm):
1 81.652259716307711 0.0000000000000000 0.0000000000000000 81.652259716307711 0.0000000000000000
2 81.652259716307711 -0.0000000000000000 -0.0000000000000000 -81.652259716307711 0.0000000000000000
3 81.652259716307711 0.85949180013245619 9.1657040393969394E-002 14.111301449966248 80.418999999999997
4 81.652259716307711 -0.85949180013245619 -9.1657040393969394E-002 -14.111301449966248 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.0934542588426404E-004 OLP: -1.0934542588432954E-004
COEFFICIENT SINGLE POLE:
MadFKS: -1.1369617202236260E-004 OLP: -1.1369617202405653E-004
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
ABS integral = 0.6866E+01 +/- 0.3164E-01 ( 0.461 %)
Integral = 0.6776E+01 +/- 0.3204E-01 ( 0.473 %)
Virtual = -.2388E-02 +/- 0.1131E-01 ( 473.486 %)
Virtual ratio = -.7803E-01 +/- 0.7825E-02 ( 10.029 %)
ABS virtual = 0.1094E+00 +/- 0.1130E-01 ( 10.327 %)
Born = 0.3512E-01 +/- 0.2825E-02 ( 8.044 %)
V 2 = -.2388E-02 +/- 0.1131E-01 ( 473.486 %)
B 2 = 0.3512E-01 +/- 0.2825E-02 ( 8.044 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6866E+01 +/- 0.3164E-01 ( 0.461 %)
accumulated results Integral = 0.6776E+01 +/- 0.3204E-01 ( 0.473 %)
accumulated results Virtual = -.2388E-02 +/- 0.1131E-01 ( 473.486 %)
accumulated results Virtual ratio = -.7803E-01 +/- 0.7825E-02 ( 10.029 %)
accumulated results ABS virtual = 0.1094E+00 +/- 0.1130E-01 ( 10.327 %)
accumulated results Born = 0.3512E-01 +/- 0.2825E-02 ( 8.044 %)
accumulated results V 2 = -.2388E-02 +/- 0.1131E-01 ( 473.486 %)
accumulated results B 2 = 0.3512E-01 +/- 0.2825E-02 ( 8.044 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1096 318 0.1493E+00 0.1443E+00 0.5000E-02
channel 2 : 1 T 1125 483 0.1518E+00 0.1503E+00 0.5000E-02
channel 3 : 2 T 4858 1286 0.6415E+00 0.6315E+00 0.5000E-02
channel 4 : 2 T 5089 1355 0.6937E+00 0.6714E+00 0.5000E-02
channel 5 : 3 T 18571 5041 0.2618E+01 0.2592E+01 0.5000E-02
channel 6 : 3 T 18407 4835 0.2612E+01 0.2586E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8664525997490671 +/- 3.1642935542151966E-002
Final result: 6.7759848745650588 +/- 3.2037247678123756E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 239
Stability unknown: 0
Stable PS point: 239
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 239
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 239
counters for the granny resonances
ntot 0
Time spent in Born : 0.257792026
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.90553999
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.68011713
Time spent in Integrated_CT : 1.27423668
Time spent in Virtuals : 4.69789505
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.84296799
Time spent in N1body_prefactor : 5.74573278E-02
Time spent in Adding_alphas_pdf : 0.956385255
Time spent in Reweight_scale : 4.32028246
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.35954058
Time spent in Applying_cuts : 0.300368398
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.08409119
Time spent in Other_tasks : 2.46746254
Time spent in Total : 34.2041359
Time in seconds: 65
LOG file for integration channel /P0_uux_wpwm/all_G1_10, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
27484
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9702186134822270E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 10
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 318 0.3853E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 483 0.3882E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1286 0.1717E+02 0.0000E+00 0.7287E-02
channel 4 : 2 F 0 1355 0.1692E+02 0.0000E+00 0.5186E-02
channel 5 : 3 F 0 5041 0.6332E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4835 0.6313E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 1 , 31570
with seed 52
Ranmar initialization seeds 5028 10917
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.804224D+02 0.804224D+02 1.00
muF1, muF1_reference: 0.804224D+02 0.804224D+02 1.00
muF2, muF2_reference: 0.804224D+02 0.804224D+02 1.00
QES, QES_reference: 0.804224D+02 0.804224D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12028219631043298
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11988207538067107
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.9479448428340957E-004 OLP: -2.9479448428341385E-004
COEFFICIENT SINGLE POLE:
MadFKS: -7.0417375876934813E-004 OLP: -7.0417375876937393E-004
FINITE:
OLP: -1.9117489688478984E-002
BORN: 0.26866168046884792
MOMENTA (Exyzm):
1 101.45817389928297 0.0000000000000000 0.0000000000000000 101.45817389928297 0.0000000000000000
2 101.45817389928297 -0.0000000000000000 -0.0000000000000000 -101.45817389928297 0.0000000000000000
3 101.45817389928297 5.1988372800148852 16.136911082851462 59.490483958505649 80.418999999999997
4 101.45817389928297 -5.1988372800148852 -16.136911082851462 -59.490483958505649 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.9479448428340957E-004 OLP: -2.9479448428341385E-004
COEFFICIENT SINGLE POLE:
MadFKS: -7.0417375876934813E-004 OLP: -7.0417375876937393E-004
ABS integral = 0.6917E+01 +/- 0.4381E-01 ( 0.633 %)
Integral = 0.6812E+01 +/- 0.4414E-01 ( 0.648 %)
Virtual = -.1616E-01 +/- 0.1088E-01 ( 67.313 %)
Virtual ratio = -.8106E-01 +/- 0.3049E-02 ( 3.761 %)
ABS virtual = 0.1153E+00 +/- 0.1086E-01 ( 9.426 %)
Born = 0.3789E-01 +/- 0.2833E-02 ( 7.477 %)
V 2 = -.1616E-01 +/- 0.1088E-01 ( 67.313 %)
B 2 = 0.3789E-01 +/- 0.2833E-02 ( 7.477 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6917E+01 +/- 0.4381E-01 ( 0.633 %)
accumulated results Integral = 0.6812E+01 +/- 0.4414E-01 ( 0.648 %)
accumulated results Virtual = -.1616E-01 +/- 0.1088E-01 ( 67.313 %)
accumulated results Virtual ratio = -.8106E-01 +/- 0.3049E-02 ( 3.761 %)
accumulated results ABS virtual = 0.1153E+00 +/- 0.1086E-01 ( 9.426 %)
accumulated results Born = 0.3789E-01 +/- 0.2833E-02 ( 7.477 %)
accumulated results V 2 = -.1616E-01 +/- 0.1088E-01 ( 67.313 %)
accumulated results B 2 = 0.3789E-01 +/- 0.2833E-02 ( 7.477 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1153 318 0.1505E+00 0.1480E+00 0.5000E-02
channel 2 : 1 T 1167 483 0.1573E+00 0.1521E+00 0.5000E-02
channel 3 : 2 T 5123 1286 0.6769E+00 0.6648E+00 0.5000E-02
channel 4 : 2 T 4953 1355 0.6717E+00 0.6644E+00 0.5000E-02
channel 5 : 3 T 18621 5041 0.2683E+01 0.2640E+01 0.5000E-02
channel 6 : 3 T 18139 4835 0.2578E+01 0.2542E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.9171073661123108 +/- 4.3806547695400502E-002
Final result: 6.8116724707364780 +/- 4.4141397016803065E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 256
Stability unknown: 0
Stable PS point: 256
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 256
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 256
counters for the granny resonances
ntot 0
Time spent in Born : 0.262904257
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.89422131
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.64979744
Time spent in Integrated_CT : 1.27403116
Time spent in Virtuals : 4.99137306
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.80944657
Time spent in N1body_prefactor : 5.34175783E-02
Time spent in Adding_alphas_pdf : 0.954375923
Time spent in Reweight_scale : 4.28578281
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.38983715
Time spent in Applying_cuts : 0.299587876
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.06892920
Time spent in Other_tasks : 2.46940231
Time spent in Total : 34.4031067
Time in seconds: 65
LOG file for integration channel /P0_uux_wpwm/all_G1_11, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
16310
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9702186134822270E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 11
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 318 0.3853E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 483 0.3882E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1286 0.1717E+02 0.0000E+00 0.7287E-02
channel 4 : 2 F 0 1355 0.1692E+02 0.0000E+00 0.5186E-02
channel 5 : 3 F 0 5041 0.6332E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4835 0.6313E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 1 , 34727
with seed 52
Ranmar initialization seeds 5028 14074
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.820270D+02 0.820270D+02 1.00
muF1, muF1_reference: 0.820270D+02 0.820270D+02 1.00
muF2, muF2_reference: 0.820270D+02 0.820270D+02 1.00
QES, QES_reference: 0.820270D+02 0.820270D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.11991780657115765
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12016691725727864
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.7964061648092480E-004 OLP: -1.7964061648092445E-004
COEFFICIENT SINGLE POLE:
MadFKS: -3.3911527304040937E-004 OLP: -3.3911527304050776E-004
FINITE:
OLP: -9.1570655084343734E-003
BORN: 0.16371591897841078
MOMENTA (Exyzm):
1 87.790535394769890 0.0000000000000000 0.0000000000000000 87.790535394769890 0.0000000000000000
2 87.790535394769890 -0.0000000000000000 -0.0000000000000000 -87.790535394769890 0.0000000000000000
3 87.790535394769890 8.6543392443260583 2.6147209795317949 34.032751730409046 80.418999999999997
4 87.790535394769890 -8.6543392443260583 -2.6147209795317949 -34.032751730409046 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.7964061648092480E-004 OLP: -1.7964061648092445E-004
COEFFICIENT SINGLE POLE:
MadFKS: -3.3911527304040926E-004 OLP: -3.3911527304050776E-004
REAL 2: keeping split order 1
ABS integral = 0.6892E+01 +/- 0.3572E-01 ( 0.518 %)
Integral = 0.6792E+01 +/- 0.3611E-01 ( 0.532 %)
Virtual = -.1102E-01 +/- 0.1116E-01 ( 101.199 %)
Virtual ratio = -.8492E-01 +/- 0.4551E-02 ( 5.359 %)
ABS virtual = 0.1069E+00 +/- 0.1115E-01 ( 10.425 %)
Born = 0.3076E-01 +/- 0.2374E-02 ( 7.718 %)
V 2 = -.1102E-01 +/- 0.1116E-01 ( 101.199 %)
B 2 = 0.3076E-01 +/- 0.2374E-02 ( 7.718 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6892E+01 +/- 0.3572E-01 ( 0.518 %)
accumulated results Integral = 0.6792E+01 +/- 0.3611E-01 ( 0.532 %)
accumulated results Virtual = -.1102E-01 +/- 0.1116E-01 ( 101.199 %)
accumulated results Virtual ratio = -.8492E-01 +/- 0.4551E-02 ( 5.359 %)
accumulated results ABS virtual = 0.1069E+00 +/- 0.1115E-01 ( 10.425 %)
accumulated results Born = 0.3076E-01 +/- 0.2374E-02 ( 7.718 %)
accumulated results V 2 = -.1102E-01 +/- 0.1116E-01 ( 101.199 %)
accumulated results B 2 = 0.3076E-01 +/- 0.2374E-02 ( 7.718 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1147 318 0.1526E+00 0.1521E+00 0.5000E-02
channel 2 : 1 T 1129 483 0.1523E+00 0.1515E+00 0.5000E-02
channel 3 : 2 T 5033 1286 0.6615E+00 0.6446E+00 0.5063E-02
channel 4 : 2 T 4864 1355 0.6664E+00 0.6565E+00 0.5000E-02
channel 5 : 3 T 18437 5041 0.2620E+01 0.2577E+01 0.5000E-02
channel 6 : 3 T 18543 4835 0.2639E+01 0.2610E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8918477312547344 +/- 3.5723446398328980E-002
Final result: 6.7920889190185001 +/- 3.6110074995614881E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 234
Stability unknown: 0
Stable PS point: 234
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 234
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 234
counters for the granny resonances
ntot 0
Time spent in Born : 0.320257872
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 8.95991707
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 2.24240685
Time spent in Integrated_CT : 1.52521515
Time spent in Virtuals : 5.54615402
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 5.19711971
Time spent in N1body_prefactor : 6.99381977E-02
Time spent in Adding_alphas_pdf : 1.34833431
Time spent in Reweight_scale : 5.71788406
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.96797609
Time spent in Applying_cuts : 0.422981501
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 10.8656244
Time spent in Other_tasks : 3.49026489
Time spent in Total : 47.6740761
Time in seconds: 65
LOG file for integration channel /P0_uux_wpwm/all_G1_12, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
16309
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9702186134822270E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 12
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 318 0.3853E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 483 0.3882E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1286 0.1717E+02 0.0000E+00 0.7287E-02
channel 4 : 2 F 0 1355 0.1692E+02 0.0000E+00 0.5186E-02
channel 5 : 3 F 0 5041 0.6332E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4835 0.6313E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 1 , 37884
with seed 52
Ranmar initialization seeds 5028 17231
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.809761D+02 0.809761D+02 1.00
muF1, muF1_reference: 0.809761D+02 0.809761D+02 1.00
muF2, muF2_reference: 0.809761D+02 0.809761D+02 1.00
QES, QES_reference: 0.809761D+02 0.809761D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12015538506330965
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.12009459760562512
==========================================================================================
{ }
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==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.8360450029483932E-004 OLP: -2.8360450029484534E-004
COEFFICIENT SINGLE POLE:
MadFKS: -6.7997142077124773E-004 OLP: -6.7997142077122908E-004
FINITE:
OLP: -1.7961103345678471E-002
BORN: 0.25846366095672380
MOMENTA (Exyzm):
1 98.387647304546675 0.0000000000000000 0.0000000000000000 98.387647304546675 0.0000000000000000
2 98.387647304546675 -0.0000000000000000 -0.0000000000000000 -98.387647304546675 0.0000000000000000
3 98.387647304546675 6.3527012672479080 9.6389691245598428 55.494567679627529 80.418999999999997
4 98.387647304546675 -6.3527012672479080 -9.6389691245598428 -55.494567679627529 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.8360450029483932E-004 OLP: -2.8360450029484534E-004
COEFFICIENT SINGLE POLE:
MadFKS: -6.7997142077124795E-004 OLP: -6.7997142077122908E-004
ABS integral = 0.6876E+01 +/- 0.2987E-01 ( 0.434 %)
Integral = 0.6788E+01 +/- 0.3028E-01 ( 0.446 %)
Virtual = 0.7076E-03 +/- 0.1114E-01 ( ******* %)
Virtual ratio = -.8050E-01 +/- 0.2998E-02 ( 3.724 %)
ABS virtual = 0.1155E+00 +/- 0.1113E-01 ( 9.637 %)
Born = 0.4288E-01 +/- 0.3128E-02 ( 7.294 %)
V 2 = 0.7076E-03 +/- 0.1114E-01 ( ******* %)
B 2 = 0.4288E-01 +/- 0.3128E-02 ( 7.294 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6876E+01 +/- 0.2987E-01 ( 0.434 %)
accumulated results Integral = 0.6788E+01 +/- 0.3028E-01 ( 0.446 %)
accumulated results Virtual = 0.7076E-03 +/- 0.1114E-01 ( ******* %)
accumulated results Virtual ratio = -.8050E-01 +/- 0.2998E-02 ( 3.724 %)
accumulated results ABS virtual = 0.1155E+00 +/- 0.1113E-01 ( 9.637 %)
accumulated results Born = 0.4288E-01 +/- 0.3128E-02 ( 7.294 %)
accumulated results V 2 = 0.7076E-03 +/- 0.1114E-01 ( ******* %)
accumulated results B 2 = 0.4288E-01 +/- 0.3128E-02 ( 7.294 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1153 318 0.1522E+00 0.1520E+00 0.5000E-02
channel 2 : 1 T 1136 483 0.1509E+00 0.1502E+00 0.5000E-02
channel 3 : 2 T 4985 1286 0.6516E+00 0.6384E+00 0.5000E-02
channel 4 : 2 T 4872 1355 0.6610E+00 0.6478E+00 0.5000E-02
channel 5 : 3 T 18507 5041 0.2601E+01 0.2577E+01 0.5000E-02
channel 6 : 3 T 18500 4835 0.2659E+01 0.2622E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8763128515126217 +/- 2.9872090479604870E-002
Final result: 6.7876428065933361 +/- 3.0281867846839981E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 265
Stability unknown: 0
Stable PS point: 265
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 265
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 265
counters for the granny resonances
ntot 0
Time spent in Born : 0.315158695
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 8.90307808
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 2.22978878
Time spent in Integrated_CT : 1.51390266
Time spent in Virtuals : 6.20962906
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 5.16260338
Time spent in N1body_prefactor : 6.79562390E-02
Time spent in Adding_alphas_pdf : 1.34303224
Time spent in Reweight_scale : 5.67566252
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.94015074
Time spent in Applying_cuts : 0.410289466
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 10.8119659
Time spent in Other_tasks : 3.44552612
Time spent in Total : 48.0287476
Time in seconds: 65
LOG file for integration channel /P0_uux_wpwm/all_G1_13, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
16312
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9702186134822270E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 13
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 318 0.3853E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 483 0.3882E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1286 0.1717E+02 0.0000E+00 0.7287E-02
channel 4 : 2 F 0 1355 0.1692E+02 0.0000E+00 0.5186E-02
channel 5 : 3 F 0 5041 0.6332E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4835 0.6313E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 1 , 41041
with seed 52
Ranmar initialization seeds 5028 20388
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.807813D+02 0.807813D+02 1.00
muF1, muF1_reference: 0.807813D+02 0.807813D+02 1.00
muF2, muF2_reference: 0.807813D+02 0.807813D+02 1.00
QES, QES_reference: 0.807813D+02 0.807813D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12019988264957669
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12018171881502712
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.3543530129849654E-004 OLP: -1.3543530129849296E-004
COEFFICIENT SINGLE POLE:
MadFKS: -1.9523775393152134E-004 OLP: -1.9523775393312585E-004
FINITE:
OLP: -5.0175339768811023E-003
BORN: 0.12342929593851484
MOMENTA (Exyzm):
1 83.980345190389258 0.0000000000000000 0.0000000000000000 83.980345190389258 0.0000000000000000
2 83.980345190389258 -0.0000000000000000 -0.0000000000000000 -83.980345190389258 0.0000000000000000
3 83.980345190389258 6.3019667015869096 5.6151432999265856 22.676820736388883 80.418999999999997
4 83.980345190389258 -6.3019667015869096 -5.6151432999265856 -22.676820736388883 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.3543530129849654E-004 OLP: -1.3543530129849296E-004
COEFFICIENT SINGLE POLE:
MadFKS: -1.9523775393152139E-004 OLP: -1.9523775393312585E-004
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
ABS integral = 0.6909E+01 +/- 0.4287E-01 ( 0.621 %)
Integral = 0.6774E+01 +/- 0.4331E-01 ( 0.639 %)
Virtual = -.2628E-01 +/- 0.1308E-01 ( 49.770 %)
Virtual ratio = -.8805E-01 +/- 0.3572E-02 ( 4.056 %)
ABS virtual = 0.1385E+00 +/- 0.1307E-01 ( 9.433 %)
Born = 0.4576E-01 +/- 0.3271E-02 ( 7.148 %)
V 2 = -.2628E-01 +/- 0.1308E-01 ( 49.770 %)
B 2 = 0.4576E-01 +/- 0.3271E-02 ( 7.148 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6909E+01 +/- 0.4287E-01 ( 0.621 %)
accumulated results Integral = 0.6774E+01 +/- 0.4331E-01 ( 0.639 %)
accumulated results Virtual = -.2628E-01 +/- 0.1308E-01 ( 49.770 %)
accumulated results Virtual ratio = -.8805E-01 +/- 0.3572E-02 ( 4.056 %)
accumulated results ABS virtual = 0.1385E+00 +/- 0.1307E-01 ( 9.433 %)
accumulated results Born = 0.4576E-01 +/- 0.3271E-02 ( 7.148 %)
accumulated results V 2 = -.2628E-01 +/- 0.1308E-01 ( 49.770 %)
accumulated results B 2 = 0.4576E-01 +/- 0.3271E-02 ( 7.148 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1106 318 0.1518E+00 0.1403E+00 0.6369E-02
channel 2 : 1 T 1189 483 0.1564E+00 0.1481E+00 0.5000E-02
channel 3 : 2 T 5034 1286 0.6776E+00 0.6514E+00 0.7383E-02
channel 4 : 2 T 4955 1355 0.6810E+00 0.6718E+00 0.5000E-02
channel 5 : 3 T 18344 5041 0.2562E+01 0.2516E+01 0.5000E-02
channel 6 : 3 T 18529 4835 0.2680E+01 0.2646E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.9093281204858279 +/- 4.2873976778992212E-002
Final result: 6.7737501869509487 +/- 4.3311897542061085E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 290
Stability unknown: 0
Stable PS point: 290
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 290
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 290
counters for the granny resonances
ntot 0
Time spent in Born : 0.315486461
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 8.83545685
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 2.22552609
Time spent in Integrated_CT : 1.51511431
Time spent in Virtuals : 6.79934359
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 5.16314316
Time spent in N1body_prefactor : 6.64957538E-02
Time spent in Adding_alphas_pdf : 1.32436764
Time spent in Reweight_scale : 5.60211754
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.91655922
Time spent in Applying_cuts : 0.415066898
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 10.6918907
Time spent in Other_tasks : 3.42235947
Time spent in Total : 48.2929268
Time in seconds: 65
LOG file for integration channel /P0_uux_wpwm/all_G1_14, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
16313
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9702186134822270E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 14
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 318 0.3853E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 483 0.3882E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1286 0.1717E+02 0.0000E+00 0.7287E-02
channel 4 : 2 F 0 1355 0.1692E+02 0.0000E+00 0.5186E-02
channel 5 : 3 F 0 5041 0.6332E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4835 0.6313E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 1 , 44198
with seed 52
Ranmar initialization seeds 5028 23545
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.804861D+02 0.804861D+02 1.00
muF1, muF1_reference: 0.804861D+02 0.804861D+02 1.00
muF2, muF2_reference: 0.804861D+02 0.804861D+02 1.00
QES, QES_reference: 0.804861D+02 0.804861D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12026755269993229
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11988292855896931
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.5120215245577371E-004 OLP: -2.5120215245577225E-004
COEFFICIENT SINGLE POLE:
MadFKS: -5.6669880979018936E-004 OLP: -5.6669880979018047E-004
FINITE:
OLP: -1.5472628363684123E-002
BORN: 0.22893370132148705
MOMENTA (Exyzm):
1 97.239600079332206 0.0000000000000000 0.0000000000000000 97.239600079332206 0.0000000000000000
2 97.239600079332206 -0.0000000000000000 -0.0000000000000000 -97.239600079332206 0.0000000000000000
3 97.239600079332206 -13.008713245860330 -10.843157433051156 51.976182806719372 80.418999999999997
4 97.239600079332206 13.008713245860330 10.843157433051156 -51.976182806719372 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.5120215245577371E-004 OLP: -2.5120215245577225E-004
COEFFICIENT SINGLE POLE:
MadFKS: -5.6669880979018947E-004 OLP: -5.6669880979018047E-004
REAL 2: keeping split order 1
ABS integral = 0.6888E+01 +/- 0.3051E-01 ( 0.443 %)
Integral = 0.6785E+01 +/- 0.3097E-01 ( 0.457 %)
Virtual = -.4118E-02 +/- 0.1150E-01 ( 279.219 %)
Virtual ratio = -.8203E-01 +/- 0.4162E-02 ( 5.074 %)
ABS virtual = 0.1200E+00 +/- 0.1149E-01 ( 9.574 %)
Born = 0.3986E-01 +/- 0.3401E-02 ( 8.532 %)
V 2 = -.4118E-02 +/- 0.1150E-01 ( 279.219 %)
B 2 = 0.3986E-01 +/- 0.3401E-02 ( 8.532 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6888E+01 +/- 0.3051E-01 ( 0.443 %)
accumulated results Integral = 0.6785E+01 +/- 0.3097E-01 ( 0.457 %)
accumulated results Virtual = -.4118E-02 +/- 0.1150E-01 ( 279.219 %)
accumulated results Virtual ratio = -.8203E-01 +/- 0.4162E-02 ( 5.074 %)
accumulated results ABS virtual = 0.1200E+00 +/- 0.1149E-01 ( 9.574 %)
accumulated results Born = 0.3986E-01 +/- 0.3401E-02 ( 8.532 %)
accumulated results V 2 = -.4118E-02 +/- 0.1150E-01 ( 279.219 %)
accumulated results B 2 = 0.3986E-01 +/- 0.3401E-02 ( 8.532 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1144 318 0.1566E+00 0.1497E+00 0.5000E-02
channel 2 : 1 T 1163 483 0.1596E+00 0.1588E+00 0.5000E-02
channel 3 : 2 T 4988 1286 0.6619E+00 0.6507E+00 0.5000E-02
channel 4 : 2 T 4929 1355 0.6705E+00 0.6640E+00 0.5000E-02
channel 5 : 3 T 18567 5041 0.2598E+01 0.2571E+01 0.5000E-02
channel 6 : 3 T 18365 4835 0.2641E+01 0.2590E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8875395529406616 +/- 3.0510306246711746E-002
Final result: 6.7850272379842478 +/- 3.0974094723887961E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 255
Stability unknown: 0
Stable PS point: 255
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 255
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 255
counters for the granny resonances
ntot 0
Time spent in Born : 0.321980625
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 8.94475746
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 2.23075342
Time spent in Integrated_CT : 1.52498722
Time spent in Virtuals : 6.05836105
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 5.17285776
Time spent in N1body_prefactor : 6.63392320E-02
Time spent in Adding_alphas_pdf : 1.32970095
Time spent in Reweight_scale : 5.65369320
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.92486072
Time spent in Applying_cuts : 0.420248181
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 10.8209391
Time spent in Other_tasks : 3.37376404
Time spent in Total : 47.8432465
Time in seconds: 65
LOG file for integration channel /P0_uux_wpwm/all_G1_15, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
16304
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9702186134822270E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 15
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 318 0.3853E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 483 0.3882E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1286 0.1717E+02 0.0000E+00 0.7287E-02
channel 4 : 2 F 0 1355 0.1692E+02 0.0000E+00 0.5186E-02
channel 5 : 3 F 0 5041 0.6332E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4835 0.6313E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 1 , 47355
with seed 52
Ranmar initialization seeds 5028 26702
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.818339D+02 0.818339D+02 1.00
muF1, muF1_reference: 0.818339D+02 0.818339D+02 1.00
muF2, muF2_reference: 0.818339D+02 0.818339D+02 1.00
QES, QES_reference: 0.818339D+02 0.818339D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.11996117561510040
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.11837528305791255
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -4.2022789815165799E-004 OLP: -4.2022789815165620E-004
COEFFICIENT SINGLE POLE:
MadFKS: -9.4903654260002307E-004 OLP: -9.4903654260004974E-004
FINITE:
OLP: -2.9521111654634655E-002
BORN: 0.38297573162453519
MOMENTA (Exyzm):
1 133.28368187104218 0.0000000000000000 0.0000000000000000 133.28368187104218 0.0000000000000000
2 133.28368187104218 -0.0000000000000000 -0.0000000000000000 -133.28368187104218 0.0000000000000000
3 133.28368187104218 27.583932153163921 27.325847142947385 98.943160738835815 80.418999999999997
4 133.28368187104218 -27.583932153163921 -27.325847142947385 -98.943160738835815 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -4.2022789815165799E-004 OLP: -4.2022789815165620E-004
COEFFICIENT SINGLE POLE:
MadFKS: -9.4903654260002340E-004 OLP: -9.4903654260004974E-004
ABS integral = 0.6891E+01 +/- 0.3395E-01 ( 0.493 %)
Integral = 0.6803E+01 +/- 0.3431E-01 ( 0.504 %)
Virtual = 0.2200E-02 +/- 0.1193E-01 ( 542.359 %)
Virtual ratio = -.8182E-01 +/- 0.3316E-02 ( 4.052 %)
ABS virtual = 0.1144E+00 +/- 0.1192E-01 ( 10.420 %)
Born = 0.4718E-01 +/- 0.5874E-02 ( 12.449 %)
V 2 = 0.2200E-02 +/- 0.1193E-01 ( 542.359 %)
B 2 = 0.4718E-01 +/- 0.5874E-02 ( 12.449 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6891E+01 +/- 0.3395E-01 ( 0.493 %)
accumulated results Integral = 0.6803E+01 +/- 0.3431E-01 ( 0.504 %)
accumulated results Virtual = 0.2200E-02 +/- 0.1193E-01 ( 542.359 %)
accumulated results Virtual ratio = -.8182E-01 +/- 0.3316E-02 ( 4.052 %)
accumulated results ABS virtual = 0.1144E+00 +/- 0.1192E-01 ( 10.420 %)
accumulated results Born = 0.4718E-01 +/- 0.5874E-02 ( 12.449 %)
accumulated results V 2 = 0.2200E-02 +/- 0.1193E-01 ( 542.359 %)
accumulated results B 2 = 0.4718E-01 +/- 0.5874E-02 ( 12.449 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1076 318 0.1415E+00 0.1378E+00 0.5000E-02
channel 2 : 1 T 1140 483 0.1502E+00 0.1466E+00 0.5000E-02
channel 3 : 2 T 5055 1286 0.6773E+00 0.6649E+00 0.5000E-02
channel 4 : 2 T 4981 1355 0.6750E+00 0.6658E+00 0.5000E-02
channel 5 : 3 T 18433 5041 0.2576E+01 0.2550E+01 0.5000E-02
channel 6 : 3 T 18468 4835 0.2671E+01 0.2638E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8911355201912654 +/- 3.3952319225593948E-002
Final result: 6.8026619573278913 +/- 3.4313391058154959E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 263
Stability unknown: 0
Stable PS point: 263
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 263
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 263
counters for the granny resonances
ntot 0
Time spent in Born : 0.318956226
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 8.94243050
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 2.22141957
Time spent in Integrated_CT : 1.51668978
Time spent in Virtuals : 6.18986797
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 5.19318628
Time spent in N1body_prefactor : 6.44252077E-02
Time spent in Adding_alphas_pdf : 1.34084523
Time spent in Reweight_scale : 5.61667728
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.93414581
Time spent in Applying_cuts : 0.411394358
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 10.7606602
Time spent in Other_tasks : 3.33684540
Time spent in Total : 47.8475418
Time in seconds: 65
LOG file for integration channel /P0_uux_wpwm/all_G1_16, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
16303
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9702186134822270E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 16
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 318 0.3853E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 483 0.3882E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1286 0.1717E+02 0.0000E+00 0.7287E-02
channel 4 : 2 F 0 1355 0.1692E+02 0.0000E+00 0.5186E-02
channel 5 : 3 F 0 5041 0.6332E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4835 0.6313E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 1 , 50512
with seed 52
Ranmar initialization seeds 5028 29859
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.830916D+02 0.830916D+02 1.00
muF1, muF1_reference: 0.830916D+02 0.830916D+02 1.00
muF2, muF2_reference: 0.830916D+02 0.830916D+02 1.00
QES, QES_reference: 0.830916D+02 0.830916D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.11968115645720416
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
REAL 2: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.12027799645069058
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.9591547702588190E-004 OLP: -2.9591547702573033E-004
COEFFICIENT SINGLE POLE:
MadFKS: -7.3146293636718973E-004 OLP: -7.3146293636807422E-004
FINITE:
OLP: -1.8853838952469462E-002
BORN: 0.26968329997003393
MOMENTA (Exyzm):
1 98.032038519968353 0.0000000000000000 0.0000000000000000 98.032038519968353 0.0000000000000000
2 98.032038519968353 -0.0000000000000000 -0.0000000000000000 -98.032038519968353 0.0000000000000000
3 98.032038519968353 1.8093197478711680 0.45930656025810768 56.031958870935682 80.418999999999997
4 98.032038519968353 -1.8093197478711680 -0.45930656025810768 -56.031958870935682 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.9591547702588190E-004 OLP: -2.9591547702573033E-004
COEFFICIENT SINGLE POLE:
MadFKS: -7.3146293636718951E-004 OLP: -7.3146293636807422E-004
ABS integral = 0.6814E+01 +/- 0.3224E-01 ( 0.473 %)
Integral = 0.6744E+01 +/- 0.3254E-01 ( 0.482 %)
Virtual = -.5732E-02 +/- 0.9558E-02 ( 166.735 %)
Virtual ratio = -.8473E-01 +/- 0.5475E-02 ( 6.462 %)
ABS virtual = 0.8208E-01 +/- 0.9551E-02 ( 11.636 %)
Born = 0.3128E-01 +/- 0.2535E-02 ( 8.104 %)
V 2 = -.5732E-02 +/- 0.9558E-02 ( 166.735 %)
B 2 = 0.3128E-01 +/- 0.2535E-02 ( 8.104 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6814E+01 +/- 0.3224E-01 ( 0.473 %)
accumulated results Integral = 0.6744E+01 +/- 0.3254E-01 ( 0.482 %)
accumulated results Virtual = -.5732E-02 +/- 0.9558E-02 ( 166.735 %)
accumulated results Virtual ratio = -.8473E-01 +/- 0.5475E-02 ( 6.462 %)
accumulated results ABS virtual = 0.8208E-01 +/- 0.9551E-02 ( 11.636 %)
accumulated results Born = 0.3128E-01 +/- 0.2535E-02 ( 8.104 %)
accumulated results V 2 = -.5732E-02 +/- 0.9558E-02 ( 166.735 %)
accumulated results B 2 = 0.3128E-01 +/- 0.2535E-02 ( 8.104 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1123 318 0.1527E+00 0.1469E+00 0.5335E-02
channel 2 : 1 T 1122 483 0.1434E+00 0.1417E+00 0.5000E-02
channel 3 : 2 T 4931 1286 0.6416E+00 0.6348E+00 0.5000E-02
channel 4 : 2 T 4921 1355 0.6734E+00 0.6630E+00 0.5000E-02
channel 5 : 3 T 18554 5041 0.2554E+01 0.2530E+01 0.5000E-02
channel 6 : 3 T 18503 4835 0.2648E+01 0.2627E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8137048517256593 +/- 3.2241048093439320E-002
Final result: 6.7438433535046087 +/- 3.2538515809083055E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 212
Stability unknown: 0
Stable PS point: 212
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 212
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 212
counters for the granny resonances
ntot 0
Time spent in Born : 0.315212846
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 8.90281677
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 2.23503304
Time spent in Integrated_CT : 1.51436949
Time spent in Virtuals : 5.01322031
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 5.17720747
Time spent in N1body_prefactor : 6.53515160E-02
Time spent in Adding_alphas_pdf : 1.34600186
Time spent in Reweight_scale : 5.69340420
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.93101871
Time spent in Applying_cuts : 0.405928403
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 10.7901621
Time spent in Other_tasks : 3.31230164
Time spent in Total : 46.7020302
Time in seconds: 65
LOG file for integration channel /P0_uux_wpwm/all_G1_17, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
16307
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9702186134822270E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 17
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 318 0.3853E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 483 0.3882E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1286 0.1717E+02 0.0000E+00 0.7287E-02
channel 4 : 2 F 0 1355 0.1692E+02 0.0000E+00 0.5186E-02
channel 5 : 3 F 0 5041 0.6332E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4835 0.6313E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 1 , 53669
with seed 52
Ranmar initialization seeds 5028 2935
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.807887D+02 0.807887D+02 1.00
muF1, muF1_reference: 0.807887D+02 0.807887D+02 1.00
muF2, muF2_reference: 0.807887D+02 0.807887D+02 1.00
QES, QES_reference: 0.807887D+02 0.807887D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12019818572404910
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12022486837035994
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.4249413832869689E-004 OLP: -1.4249413832870717E-004
COEFFICIENT SINGLE POLE:
MadFKS: -2.1741727702435725E-004 OLP: -2.1741727702532065E-004
FINITE:
OLP: -5.5285336266155619E-003
BORN: 0.12986238447916121
MOMENTA (Exyzm):
1 84.218405443082517 0.0000000000000000 0.0000000000000000 84.218405443082517 0.0000000000000000
2 84.218405443082517 -0.0000000000000000 -0.0000000000000000 -84.218405443082517 0.0000000000000000
3 84.218405443082517 0.68053284165693173 6.3491888847031808 24.181582453040988 80.418999999999997
4 84.218405443082517 -0.68053284165693173 -6.3491888847031808 -24.181582453040988 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.4249413832869689E-004 OLP: -1.4249413832870717E-004
COEFFICIENT SINGLE POLE:
MadFKS: -2.1741727702435720E-004 OLP: -2.1741727702532065E-004
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
ABS integral = 0.6892E+01 +/- 0.3126E-01 ( 0.453 %)
Integral = 0.6795E+01 +/- 0.3169E-01 ( 0.466 %)
Virtual = -.1194E-01 +/- 0.1137E-01 ( 95.270 %)
Virtual ratio = -.8229E-01 +/- 0.3400E-02 ( 4.132 %)
ABS virtual = 0.1047E+00 +/- 0.1136E-01 ( 10.851 %)
Born = 0.3442E-01 +/- 0.2529E-02 ( 7.347 %)
V 2 = -.1194E-01 +/- 0.1137E-01 ( 95.270 %)
B 2 = 0.3442E-01 +/- 0.2529E-02 ( 7.347 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6892E+01 +/- 0.3126E-01 ( 0.453 %)
accumulated results Integral = 0.6795E+01 +/- 0.3169E-01 ( 0.466 %)
accumulated results Virtual = -.1194E-01 +/- 0.1137E-01 ( 95.270 %)
accumulated results Virtual ratio = -.8229E-01 +/- 0.3400E-02 ( 4.132 %)
accumulated results ABS virtual = 0.1047E+00 +/- 0.1136E-01 ( 10.851 %)
accumulated results Born = 0.3442E-01 +/- 0.2529E-02 ( 7.347 %)
accumulated results V 2 = -.1194E-01 +/- 0.1137E-01 ( 95.270 %)
accumulated results B 2 = 0.3442E-01 +/- 0.2529E-02 ( 7.347 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1151 318 0.1553E+00 0.1436E+00 0.7530E-02
channel 2 : 1 T 1162 483 0.1496E+00 0.1489E+00 0.5000E-02
channel 3 : 2 T 4998 1286 0.6644E+00 0.6604E+00 0.5000E-02
channel 4 : 2 T 4966 1355 0.6762E+00 0.6632E+00 0.5000E-02
channel 5 : 3 T 18619 5041 0.2612E+01 0.2582E+01 0.5000E-02
channel 6 : 3 T 18259 4835 0.2635E+01 0.2597E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8924837330360011 +/- 3.1257306612623194E-002
Final result: 6.7953632299675029 +/- 3.1686989923691775E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 243
Stability unknown: 0
Stable PS point: 243
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 243
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 243
counters for the granny resonances
ntot 0
Time spent in Born : 0.322855920
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 9.21776390
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 2.28228211
Time spent in Integrated_CT : 1.52652168
Time spent in Virtuals : 5.75177002
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 5.33154202
Time spent in N1body_prefactor : 6.52731657E-02
Time spent in Adding_alphas_pdf : 1.33399510
Time spent in Reweight_scale : 5.56609106
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.92792153
Time spent in Applying_cuts : 0.411516935
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 11.0421906
Time spent in Other_tasks : 3.32752991
Time spent in Total : 48.1072578
Time in seconds: 65
LOG file for integration channel /P0_uux_wpwm/all_G1_18, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
16306
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9702186134822270E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 18
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 318 0.3853E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 483 0.3882E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1286 0.1717E+02 0.0000E+00 0.7287E-02
channel 4 : 2 F 0 1355 0.1692E+02 0.0000E+00 0.5186E-02
channel 5 : 3 F 0 5041 0.6332E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4835 0.6313E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 1 , 56826
with seed 52
Ranmar initialization seeds 5028 6092
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.822674D+02 0.822674D+02 1.00
muF1, muF1_reference: 0.822674D+02 0.822674D+02 1.00
muF2, muF2_reference: 0.822674D+02 0.822674D+02 1.00
QES, QES_reference: 0.822674D+02 0.822674D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.11986402881044762
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.12017255872713632
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.5490914432373140E-004 OLP: -2.5490914432374739E-004
COEFFICIENT SINGLE POLE:
MadFKS: -5.8946956100631651E-004 OLP: -5.8946956100601228E-004
FINITE:
OLP: -1.5298170576664560E-002
BORN: 0.23231207750498578
MOMENTA (Exyzm):
1 94.906587797815064 0.0000000000000000 0.0000000000000000 94.906587797815064 0.0000000000000000
2 94.906587797815064 -0.0000000000000000 -0.0000000000000000 -94.906587797815064 0.0000000000000000
3 94.906587797815064 -5.5634737796923943 -6.8397196707493224 49.621677125552900 80.418999999999997
4 94.906587797815064 5.5634737796923943 6.8397196707493224 -49.621677125552900 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.5490914432373140E-004 OLP: -2.5490914432374739E-004
COEFFICIENT SINGLE POLE:
MadFKS: -5.8946956100631651E-004 OLP: -5.8946956100601228E-004
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6823E+01 +/- 0.2908E-01 ( 0.426 %)
Integral = 0.6722E+01 +/- 0.2955E-01 ( 0.440 %)
Virtual = -.1221E-01 +/- 0.1297E-01 ( 106.250 %)
Virtual ratio = -.8114E-01 +/- 0.2758E-02 ( 3.399 %)
ABS virtual = 0.1145E+00 +/- 0.1296E-01 ( 11.319 %)
Born = 0.3952E-01 +/- 0.2933E-02 ( 7.419 %)
V 2 = -.1221E-01 +/- 0.1297E-01 ( 106.250 %)
B 2 = 0.3952E-01 +/- 0.2933E-02 ( 7.419 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6823E+01 +/- 0.2908E-01 ( 0.426 %)
accumulated results Integral = 0.6722E+01 +/- 0.2955E-01 ( 0.440 %)
accumulated results Virtual = -.1221E-01 +/- 0.1297E-01 ( 106.250 %)
accumulated results Virtual ratio = -.8114E-01 +/- 0.2758E-02 ( 3.399 %)
accumulated results ABS virtual = 0.1145E+00 +/- 0.1296E-01 ( 11.319 %)
accumulated results Born = 0.3952E-01 +/- 0.2933E-02 ( 7.419 %)
accumulated results V 2 = -.1221E-01 +/- 0.1297E-01 ( 106.250 %)
accumulated results B 2 = 0.3952E-01 +/- 0.2933E-02 ( 7.419 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1157 318 0.1565E+00 0.1552E+00 0.5000E-02
channel 2 : 1 T 1110 483 0.1498E+00 0.1480E+00 0.5000E-02
channel 3 : 2 T 4993 1286 0.6671E+00 0.6469E+00 0.5925E-02
channel 4 : 2 T 4978 1355 0.6829E+00 0.6728E+00 0.5000E-02
channel 5 : 3 T 18440 5041 0.2548E+01 0.2511E+01 0.5000E-02
channel 6 : 3 T 18471 4835 0.2619E+01 0.2588E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8234661970536292 +/- 2.9076997288899727E-002
Final result: 6.7218017951656419 +/- 2.9554836560692386E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 259
Stability unknown: 0
Stable PS point: 259
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 259
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 259
counters for the granny resonances
ntot 0
Time spent in Born : 0.320801675
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 9.20764351
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 2.27891254
Time spent in Integrated_CT : 1.52304268
Time spent in Virtuals : 6.09283829
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 5.34998941
Time spent in N1body_prefactor : 6.45696223E-02
Time spent in Adding_alphas_pdf : 1.34087515
Time spent in Reweight_scale : 5.65764618
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.92766452
Time spent in Applying_cuts : 0.412765205
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 10.9824133
Time spent in Other_tasks : 3.30047226
Time spent in Total : 48.4596367
Time in seconds: 65
LOG file for integration channel /P0_uux_wpwm/all_G1_19, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
339
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9702186134822270E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 19
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 318 0.3853E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 483 0.3882E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1286 0.1717E+02 0.0000E+00 0.7287E-02
channel 4 : 2 F 0 1355 0.1692E+02 0.0000E+00 0.5186E-02
channel 5 : 3 F 0 5041 0.6332E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4835 0.6313E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 1 , 59983
with seed 52
Ranmar initialization seeds 5028 9249
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.804690D+02 0.804690D+02 1.00
muF1, muF1_reference: 0.804690D+02 0.804690D+02 1.00
muF2, muF2_reference: 0.804690D+02 0.804690D+02 1.00
QES, QES_reference: 0.804690D+02 0.804690D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12027147082069969
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
REAL 3: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.12020260670089165
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -3.7505663745474212E-004 OLP: -3.7505663745474748E-004
COEFFICIENT SINGLE POLE:
MadFKS: -9.8374273716603624E-004 OLP: -9.8374273716598333E-004
FINITE:
OLP: -2.5496160384343384E-002
BORN: 0.34180879175715717
MOMENTA (Exyzm):
1 106.15249071220099 0.0000000000000000 0.0000000000000000 106.15249071220099 0.0000000000000000
2 106.15249071220099 -0.0000000000000000 -0.0000000000000000 -106.15249071220099 0.0000000000000000
3 106.15249071220099 3.2576916376075018 6.7721453924654131 68.881501256734296 80.418999999999997
4 106.15249071220099 -3.2576916376075018 -6.7721453924654131 -68.881501256734296 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -3.7505663745474212E-004 OLP: -3.7505663745474748E-004
COEFFICIENT SINGLE POLE:
MadFKS: -9.8374273716603645E-004 OLP: -9.8374273716598333E-004
ABS integral = 0.6841E+01 +/- 0.2917E-01 ( 0.426 %)
Integral = 0.6744E+01 +/- 0.2962E-01 ( 0.439 %)
Virtual = -.3579E-02 +/- 0.1128E-01 ( 315.074 %)
Virtual ratio = -.7881E-01 +/- 0.5802E-02 ( 7.361 %)
ABS virtual = 0.1139E+00 +/- 0.1126E-01 ( 9.890 %)
Born = 0.3888E-01 +/- 0.2884E-02 ( 7.417 %)
V 2 = -.3579E-02 +/- 0.1128E-01 ( 315.074 %)
B 2 = 0.3888E-01 +/- 0.2884E-02 ( 7.417 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6841E+01 +/- 0.2917E-01 ( 0.426 %)
accumulated results Integral = 0.6744E+01 +/- 0.2962E-01 ( 0.439 %)
accumulated results Virtual = -.3579E-02 +/- 0.1128E-01 ( 315.074 %)
accumulated results Virtual ratio = -.7881E-01 +/- 0.5802E-02 ( 7.361 %)
accumulated results ABS virtual = 0.1139E+00 +/- 0.1126E-01 ( 9.890 %)
accumulated results Born = 0.3888E-01 +/- 0.2884E-02 ( 7.417 %)
accumulated results V 2 = -.3579E-02 +/- 0.1128E-01 ( 315.074 %)
accumulated results B 2 = 0.3888E-01 +/- 0.2884E-02 ( 7.417 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1074 318 0.1391E+00 0.1345E+00 0.5000E-02
channel 2 : 1 T 1170 483 0.1478E+00 0.1474E+00 0.5000E-02
channel 3 : 2 T 4928 1286 0.6350E+00 0.6249E+00 0.5000E-02
channel 4 : 2 T 4945 1355 0.6702E+00 0.6509E+00 0.5000E-02
channel 5 : 3 T 18542 5041 0.2596E+01 0.2558E+01 0.5000E-02
channel 6 : 3 T 18498 4835 0.2653E+01 0.2628E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8408486174976550 +/- 2.9165447240511247E-002
Final result: 6.7444984260678780 +/- 2.9618473706477084E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 258
Stability unknown: 0
Stable PS point: 258
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 258
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 258
counters for the granny resonances
ntot 0
Time spent in Born : 0.243908584
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.60187531
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.58023667
Time spent in Integrated_CT : 1.20420933
Time spent in Virtuals : 4.70756531
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.65959501
Time spent in N1body_prefactor : 4.83188480E-02
Time spent in Adding_alphas_pdf : 0.891658783
Time spent in Reweight_scale : 3.94312525
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.26689744
Time spent in Applying_cuts : 0.267627537
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.72581577
Time spent in Other_tasks : 2.16846466
Time spent in Total : 32.3092995
Time in seconds: 53
LOG file for integration channel /P0_uux_wpwm/all_G1_20, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
340
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9702186134822270E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 20
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 318 0.3853E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 483 0.3882E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1286 0.1717E+02 0.0000E+00 0.7287E-02
channel 4 : 2 F 0 1355 0.1692E+02 0.0000E+00 0.5186E-02
channel 5 : 3 F 0 5041 0.6332E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4835 0.6313E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 1 , 63140
with seed 52
Ranmar initialization seeds 5028 12406
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.804970D+02 0.804970D+02 1.00
muF1, muF1_reference: 0.804970D+02 0.804970D+02 1.00
muF2, muF2_reference: 0.804970D+02 0.804970D+02 1.00
QES, QES_reference: 0.804970D+02 0.804970D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12026504340682305
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
REAL 2: keeping split order 1
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11336875589157613
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -4.6985644744268565E-004 OLP: -4.6985644744268484E-004
COEFFICIENT SINGLE POLE:
MadFKS: -4.6078494349756100E-004 OLP: -4.6078494349755048E-004
FINITE:
OLP: -3.9702393621586167E-002
BORN: 0.42820483244767060
MOMENTA (Exyzm):
1 250.07765622433377 0.0000000000000000 0.0000000000000000 250.07765622433377 0.0000000000000000
2 250.07765622433377 -0.0000000000000000 -0.0000000000000000 -250.07765622433377 0.0000000000000000
3 250.07765622433377 77.220059148148366 43.289232590909464 219.62405011405895 80.418999999999997
4 250.07765622433377 -77.220059148148366 -43.289232590909464 -219.62405011405895 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -4.6985644744268565E-004 OLP: -4.6985644744268484E-004
COEFFICIENT SINGLE POLE:
MadFKS: -4.6078494349756187E-004 OLP: -4.6078494349755048E-004
ABS integral = 0.6841E+01 +/- 0.3041E-01 ( 0.444 %)
Integral = 0.6753E+01 +/- 0.3080E-01 ( 0.456 %)
Virtual = -.8811E-02 +/- 0.1093E-01 ( 124.069 %)
Virtual ratio = -.8143E-01 +/- 0.2820E-02 ( 3.463 %)
ABS virtual = 0.1029E+00 +/- 0.1092E-01 ( 10.616 %)
Born = 0.3649E-01 +/- 0.2732E-02 ( 7.488 %)
V 2 = -.8811E-02 +/- 0.1093E-01 ( 124.069 %)
B 2 = 0.3649E-01 +/- 0.2732E-02 ( 7.488 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6841E+01 +/- 0.3041E-01 ( 0.444 %)
accumulated results Integral = 0.6753E+01 +/- 0.3080E-01 ( 0.456 %)
accumulated results Virtual = -.8811E-02 +/- 0.1093E-01 ( 124.069 %)
accumulated results Virtual ratio = -.8143E-01 +/- 0.2820E-02 ( 3.463 %)
accumulated results ABS virtual = 0.1029E+00 +/- 0.1092E-01 ( 10.616 %)
accumulated results Born = 0.3649E-01 +/- 0.2732E-02 ( 7.488 %)
accumulated results V 2 = -.8811E-02 +/- 0.1093E-01 ( 124.069 %)
accumulated results B 2 = 0.3649E-01 +/- 0.2732E-02 ( 7.488 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1143 318 0.1497E+00 0.1492E+00 0.5000E-02
channel 2 : 1 T 1103 483 0.1436E+00 0.1432E+00 0.5000E-02
channel 3 : 2 T 5054 1286 0.6670E+00 0.6532E+00 0.5321E-02
channel 4 : 2 T 5011 1355 0.6802E+00 0.6741E+00 0.5000E-02
channel 5 : 3 T 18233 5041 0.2529E+01 0.2497E+01 0.5000E-02
channel 6 : 3 T 18603 4835 0.2671E+01 0.2637E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8413480531138973 +/- 3.0406269395081505E-002
Final result: 6.7531245329764085 +/- 3.0804903863340279E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 246
Stability unknown: 0
Stable PS point: 246
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 246
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 246
counters for the granny resonances
ntot 0
Time spent in Born : 0.244530022
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.62394190
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.59359181
Time spent in Integrated_CT : 1.21090221
Time spent in Virtuals : 4.48396969
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.66719651
Time spent in N1body_prefactor : 4.78484705E-02
Time spent in Adding_alphas_pdf : 0.895847321
Time spent in Reweight_scale : 3.96197367
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.26673436
Time spent in Applying_cuts : 0.270006776
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.76955605
Time spent in Other_tasks : 2.18170166
Time spent in Total : 32.2178001
Time in seconds: 53
LOG file for integration channel /P0_uux_wpwm/all_G1_21, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
330
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9702186134822270E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 21
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 318 0.3853E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 483 0.3882E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1286 0.1717E+02 0.0000E+00 0.7287E-02
channel 4 : 2 F 0 1355 0.1692E+02 0.0000E+00 0.5186E-02
channel 5 : 3 F 0 5041 0.6332E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4835 0.6313E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 1 , 66297
with seed 52
Ranmar initialization seeds 5028 15563
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.823112D+02 0.823112D+02 1.00
muF1, muF1_reference: 0.823112D+02 0.823112D+02 1.00
muF2, muF2_reference: 0.823112D+02 0.823112D+02 1.00
QES, QES_reference: 0.823112D+02 0.823112D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.11985423883791445
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.11794261231658008
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.7627777328496227E-003 OLP: -1.7627777328496426E-003
COEFFICIENT SINGLE POLE:
MadFKS: -3.9231589262992122E-003 OLP: -3.9231589262989589E-003
FINITE:
OLP: -0.12757815171912601
BORN: 1.6065118353610195
MOMENTA (Exyzm):
1 242.16386891691408 0.0000000000000000 0.0000000000000000 242.16386891691408 0.0000000000000000
2 242.16386891691408 -0.0000000000000000 -0.0000000000000000 -242.16386891691408 0.0000000000000000
3 242.16386891691408 -35.038446380223604 -26.002827711633064 224.21481680314454 80.418999999999997
4 242.16386891691408 35.038446380223604 26.002827711633064 -224.21481680314454 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.7627777328496227E-003 OLP: -1.7627777328496426E-003
COEFFICIENT SINGLE POLE:
MadFKS: -3.9231589262992122E-003 OLP: -3.9231589262989589E-003
ABS integral = 0.6814E+01 +/- 0.3026E-01 ( 0.444 %)
Integral = 0.6712E+01 +/- 0.3072E-01 ( 0.458 %)
Virtual = -.1912E-01 +/- 0.1161E-01 ( 60.686 %)
Virtual ratio = -.8708E-01 +/- 0.3738E-02 ( 4.293 %)
ABS virtual = 0.1070E+00 +/- 0.1160E-01 ( 10.841 %)
Born = 0.3745E-01 +/- 0.3139E-02 ( 8.382 %)
V 2 = -.1912E-01 +/- 0.1161E-01 ( 60.686 %)
B 2 = 0.3745E-01 +/- 0.3139E-02 ( 8.382 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6814E+01 +/- 0.3026E-01 ( 0.444 %)
accumulated results Integral = 0.6712E+01 +/- 0.3072E-01 ( 0.458 %)
accumulated results Virtual = -.1912E-01 +/- 0.1161E-01 ( 60.686 %)
accumulated results Virtual ratio = -.8708E-01 +/- 0.3738E-02 ( 4.293 %)
accumulated results ABS virtual = 0.1070E+00 +/- 0.1160E-01 ( 10.841 %)
accumulated results Born = 0.3745E-01 +/- 0.3139E-02 ( 8.382 %)
accumulated results V 2 = -.1912E-01 +/- 0.1161E-01 ( 60.686 %)
accumulated results B 2 = 0.3745E-01 +/- 0.3139E-02 ( 8.382 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1125 318 0.1500E+00 0.1499E+00 0.5000E-02
channel 2 : 1 T 1108 483 0.1428E+00 0.1416E+00 0.5000E-02
channel 3 : 2 T 5008 1286 0.6585E+00 0.6427E+00 0.5972E-02
channel 4 : 2 T 5044 1355 0.6916E+00 0.6724E+00 0.5000E-02
channel 5 : 3 T 18451 5041 0.2542E+01 0.2511E+01 0.5000E-02
channel 6 : 3 T 18425 4835 0.2630E+01 0.2594E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8144842943629529 +/- 3.0256647898584475E-002
Final result: 6.7121402142360367 +/- 3.0718558244858991E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 249
Stability unknown: 0
Stable PS point: 249
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 249
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 249
counters for the granny resonances
ntot 0
Time spent in Born : 0.244029194
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.61150742
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.58275151
Time spent in Integrated_CT : 1.20564318
Time spent in Virtuals : 4.54665661
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.65070701
Time spent in N1body_prefactor : 4.76060957E-02
Time spent in Adding_alphas_pdf : 0.892099738
Time spent in Reweight_scale : 3.93825817
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.35549474
Time spent in Applying_cuts : 0.269330025
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.72151518
Time spent in Other_tasks : 2.14917755
Time spent in Total : 32.2147751
Time in seconds: 55
LOG file for integration channel /P0_uux_wpwm/all_G1_22, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
331
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9702186134822270E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 22
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 318 0.3853E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 483 0.3882E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1286 0.1717E+02 0.0000E+00 0.7287E-02
channel 4 : 2 F 0 1355 0.1692E+02 0.0000E+00 0.5186E-02
channel 5 : 3 F 0 5041 0.6332E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4835 0.6313E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 1 , 69454
with seed 52
Ranmar initialization seeds 5028 18720
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.805564D+02 0.805564D+02 1.00
muF1, muF1_reference: 0.805564D+02 0.805564D+02 1.00
muF2, muF2_reference: 0.805564D+02 0.805564D+02 1.00
QES, QES_reference: 0.805564D+02 0.805564D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12025140585795405
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
REAL 3: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.12018804608861744
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.9934589422287534E-004 OLP: -2.9934589422285707E-004
COEFFICIENT SINGLE POLE:
MadFKS: -7.3683263973829899E-004 OLP: -7.3683263973833672E-004
FINITE:
OLP: -1.9226476093385715E-002
BORN: 0.27280961914487800
MOMENTA (Exyzm):
1 99.089349602067102 0.0000000000000000 0.0000000000000000 99.089349602067102 0.0000000000000000
2 99.089349602067102 -0.0000000000000000 -0.0000000000000000 -99.089349602067102 0.0000000000000000
3 99.089349602067102 -8.1709734364277686 -4.0513338773577809E-002 57.312452358377158 80.418999999999997
4 99.089349602067102 8.1709734364277686 4.0513338773577809E-002 -57.312452358377158 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.9934589422287534E-004 OLP: -2.9934589422285707E-004
COEFFICIENT SINGLE POLE:
MadFKS: -7.3683263973829921E-004 OLP: -7.3683263973833672E-004
ABS integral = 0.6825E+01 +/- 0.2902E-01 ( 0.425 %)
Integral = 0.6724E+01 +/- 0.2950E-01 ( 0.439 %)
Virtual = -.1444E-01 +/- 0.1062E-01 ( 73.517 %)
Virtual ratio = -.8337E-01 +/- 0.2922E-02 ( 3.505 %)
ABS virtual = 0.1074E+00 +/- 0.1061E-01 ( 9.879 %)
Born = 0.3577E-01 +/- 0.3010E-02 ( 8.415 %)
V 2 = -.1444E-01 +/- 0.1062E-01 ( 73.517 %)
B 2 = 0.3577E-01 +/- 0.3010E-02 ( 8.415 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6825E+01 +/- 0.2902E-01 ( 0.425 %)
accumulated results Integral = 0.6724E+01 +/- 0.2950E-01 ( 0.439 %)
accumulated results Virtual = -.1444E-01 +/- 0.1062E-01 ( 73.517 %)
accumulated results Virtual ratio = -.8337E-01 +/- 0.2922E-02 ( 3.505 %)
accumulated results ABS virtual = 0.1074E+00 +/- 0.1061E-01 ( 9.879 %)
accumulated results Born = 0.3577E-01 +/- 0.3010E-02 ( 8.415 %)
accumulated results V 2 = -.1444E-01 +/- 0.1062E-01 ( 73.517 %)
accumulated results B 2 = 0.3577E-01 +/- 0.3010E-02 ( 8.415 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1154 318 0.1532E+00 0.1491E+00 0.5000E-02
channel 2 : 1 T 1157 483 0.1526E+00 0.1497E+00 0.5000E-02
channel 3 : 2 T 4966 1286 0.6519E+00 0.6382E+00 0.5000E-02
channel 4 : 2 T 5063 1355 0.6851E+00 0.6713E+00 0.5000E-02
channel 5 : 3 T 18389 5041 0.2555E+01 0.2521E+01 0.5000E-02
channel 6 : 3 T 18426 4835 0.2627E+01 0.2595E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8248844187554090 +/- 2.9024039254350088E-002
Final result: 6.7236999605529064 +/- 2.9500610367662456E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 239
Stability unknown: 0
Stable PS point: 239
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 239
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 239
counters for the granny resonances
ntot 0
Time spent in Born : 0.243891805
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.62546778
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.59401047
Time spent in Integrated_CT : 1.21368599
Time spent in Virtuals : 4.34957218
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.66393161
Time spent in N1body_prefactor : 4.75267395E-02
Time spent in Adding_alphas_pdf : 0.896166682
Time spent in Reweight_scale : 3.97203970
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.30024850
Time spent in Applying_cuts : 0.264735401
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.73726034
Time spent in Other_tasks : 2.14524841
Time spent in Total : 32.0537872
Time in seconds: 55
LOG file for integration channel /P0_uux_wpwm/all_G1_23, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
326
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9702186134822270E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 23
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 318 0.3853E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 483 0.3882E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1286 0.1717E+02 0.0000E+00 0.7287E-02
channel 4 : 2 F 0 1355 0.1692E+02 0.0000E+00 0.5186E-02
channel 5 : 3 F 0 5041 0.6332E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4835 0.6313E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 1 , 72611
with seed 52
Ranmar initialization seeds 5028 21877
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.804511D+02 0.804511D+02 1.00
muF1, muF1_reference: 0.804511D+02 0.804511D+02 1.00
muF2, muF2_reference: 0.804511D+02 0.804511D+02 1.00
QES, QES_reference: 0.804511D+02 0.804511D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12027559207191631
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12020051108103648
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.2096047289878545E-004 OLP: -2.2096047289879957E-004
COEFFICIENT SINGLE POLE:
MadFKS: -4.7719181606029531E-004 OLP: -4.7719181606026219E-004
FINITE:
OLP: -1.2022933911595049E-002
BORN: 0.20137287205519094
MOMENTA (Exyzm):
1 91.370069976543931 0.0000000000000000 0.0000000000000000 91.370069976543931 0.0000000000000000
2 91.370069976543931 -0.0000000000000000 -0.0000000000000000 -91.370069976543931 0.0000000000000000
3 91.370069976543931 7.6118194001306794 0.12172461545807910 42.700345608160148 80.418999999999997
4 91.370069976543931 -7.6118194001306794 -0.12172461545807910 -42.700345608160148 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.2096047289878545E-004 OLP: -2.2096047289879957E-004
COEFFICIENT SINGLE POLE:
MadFKS: -4.7719181606029515E-004 OLP: -4.7719181606026219E-004
REAL 3: keeping split order 1
ABS integral = 0.6840E+01 +/- 0.3219E-01 ( 0.471 %)
Integral = 0.6743E+01 +/- 0.3261E-01 ( 0.484 %)
Virtual = -.5434E-02 +/- 0.1175E-01 ( 216.278 %)
Virtual ratio = -.8945E-01 +/- 0.4698E-02 ( 5.252 %)
ABS virtual = 0.1087E+00 +/- 0.1174E-01 ( 10.799 %)
Born = 0.3601E-01 +/- 0.2789E-02 ( 7.744 %)
V 2 = -.5434E-02 +/- 0.1175E-01 ( 216.278 %)
B 2 = 0.3601E-01 +/- 0.2789E-02 ( 7.744 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6840E+01 +/- 0.3219E-01 ( 0.471 %)
accumulated results Integral = 0.6743E+01 +/- 0.3261E-01 ( 0.484 %)
accumulated results Virtual = -.5434E-02 +/- 0.1175E-01 ( 216.278 %)
accumulated results Virtual ratio = -.8945E-01 +/- 0.4698E-02 ( 5.252 %)
accumulated results ABS virtual = 0.1087E+00 +/- 0.1174E-01 ( 10.799 %)
accumulated results Born = 0.3601E-01 +/- 0.2789E-02 ( 7.744 %)
accumulated results V 2 = -.5434E-02 +/- 0.1175E-01 ( 216.278 %)
accumulated results B 2 = 0.3601E-01 +/- 0.2789E-02 ( 7.744 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1124 318 0.1510E+00 0.1430E+00 0.6313E-02
channel 2 : 1 T 1135 483 0.1459E+00 0.1437E+00 0.5000E-02
channel 3 : 2 T 5096 1286 0.6642E+00 0.6524E+00 0.5000E-02
channel 4 : 2 T 4878 1355 0.6646E+00 0.6575E+00 0.5000E-02
channel 5 : 3 T 18454 5041 0.2564E+01 0.2527E+01 0.5000E-02
channel 6 : 3 T 18471 4835 0.2651E+01 0.2619E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8399789750173383 +/- 3.2194614853325018E-002
Final result: 6.7425527294279552 +/- 3.2610055698600253E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 235
Stability unknown: 0
Stable PS point: 235
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 235
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 235
counters for the granny resonances
ntot 0
Time spent in Born : 0.243124902
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.64773273
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.58307266
Time spent in Integrated_CT : 1.21374893
Time spent in Virtuals : 4.28556824
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.67090797
Time spent in N1body_prefactor : 4.78609577E-02
Time spent in Adding_alphas_pdf : 0.895597994
Time spent in Reweight_scale : 3.98292971
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.28277397
Time spent in Applying_cuts : 0.268803596
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.77291012
Time spent in Other_tasks : 2.18346786
Time spent in Total : 32.0784988
Time in seconds: 54
LOG file for integration channel /P0_uux_wpwm/all_G1_24, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
337
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9702186134822270E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 24
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 318 0.3853E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 483 0.3882E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1286 0.1717E+02 0.0000E+00 0.7287E-02
channel 4 : 2 F 0 1355 0.1692E+02 0.0000E+00 0.5186E-02
channel 5 : 3 F 0 5041 0.6332E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4835 0.6313E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 1 , 75768
with seed 52
Ranmar initialization seeds 5028 25034
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.804208D+02 0.804208D+02 1.00
muF1, muF1_reference: 0.804208D+02 0.804208D+02 1.00
muF2, muF2_reference: 0.804208D+02 0.804208D+02 1.00
QES, QES_reference: 0.804208D+02 0.804208D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12028257020256330
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11943182350237296
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -5.4735180264706238E-004 OLP: -5.4735180264705446E-004
COEFFICIENT SINGLE POLE:
MadFKS: -1.4067269449464350E-003 OLP: -1.4067269449464246E-003
FINITE:
OLP: -3.8325709485574358E-002
BORN: 0.49883041558348723
MOMENTA (Exyzm):
1 127.06976181324669 0.0000000000000000 0.0000000000000000 127.06976181324669 0.0000000000000000
2 127.06976181324669 -0.0000000000000000 -0.0000000000000000 -127.06976181324669 0.0000000000000000
3 127.06976181324669 22.489332888973284 11.052843599584897 95.139756993841985 80.418999999999997
4 127.06976181324669 -22.489332888973284 -11.052843599584897 -95.139756993841985 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -5.4735180264706238E-004 OLP: -5.4735180264705446E-004
COEFFICIENT SINGLE POLE:
MadFKS: -1.4067269449464345E-003 OLP: -1.4067269449464246E-003
ABS integral = 0.6858E+01 +/- 0.3037E-01 ( 0.443 %)
Integral = 0.6751E+01 +/- 0.3086E-01 ( 0.457 %)
Virtual = -.6734E-02 +/- 0.1242E-01 ( 184.425 %)
Virtual ratio = -.8508E-01 +/- 0.4915E-02 ( 5.777 %)
ABS virtual = 0.1261E+00 +/- 0.1241E-01 ( 9.838 %)
Born = 0.4115E-01 +/- 0.5639E-02 ( 13.705 %)
V 2 = -.6734E-02 +/- 0.1242E-01 ( 184.425 %)
B 2 = 0.4115E-01 +/- 0.5639E-02 ( 13.705 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6858E+01 +/- 0.3037E-01 ( 0.443 %)
accumulated results Integral = 0.6751E+01 +/- 0.3086E-01 ( 0.457 %)
accumulated results Virtual = -.6734E-02 +/- 0.1242E-01 ( 184.425 %)
accumulated results Virtual ratio = -.8508E-01 +/- 0.4915E-02 ( 5.777 %)
accumulated results ABS virtual = 0.1261E+00 +/- 0.1241E-01 ( 9.838 %)
accumulated results Born = 0.4115E-01 +/- 0.5639E-02 ( 13.705 %)
accumulated results V 2 = -.6734E-02 +/- 0.1242E-01 ( 184.425 %)
accumulated results B 2 = 0.4115E-01 +/- 0.5639E-02 ( 13.705 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1109 318 0.1506E+00 0.1491E+00 0.5000E-02
channel 2 : 1 T 1163 483 0.1486E+00 0.1445E+00 0.5000E-02
channel 3 : 2 T 5064 1286 0.6767E+00 0.6521E+00 0.5373E-02
channel 4 : 2 T 5127 1355 0.6875E+00 0.6822E+00 0.5000E-02
channel 5 : 3 T 18586 5041 0.2618E+01 0.2583E+01 0.5000E-02
channel 6 : 3 T 18102 4835 0.2577E+01 0.2539E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8581015249083661 +/- 3.0370548869963487E-002
Final result: 6.7508210336588776 +/- 3.0855687368082627E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 255
Stability unknown: 0
Stable PS point: 255
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 255
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 255
counters for the granny resonances
ntot 0
Time spent in Born : 0.242417663
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.68529510
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.57899392
Time spent in Integrated_CT : 1.20969534
Time spent in Virtuals : 4.60700560
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.65601921
Time spent in N1body_prefactor : 4.79343012E-02
Time spent in Adding_alphas_pdf : 0.892349958
Time spent in Reweight_scale : 3.96826863
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.27496147
Time spent in Applying_cuts : 0.266454935
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.73078632
Time spent in Other_tasks : 2.19123077
Time spent in Total : 32.3514137
Time in seconds: 54
LOG file for integration channel /P0_uux_wpwm/all_G1_25, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
338
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9702186134822270E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 25
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 318 0.3853E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 483 0.3882E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1286 0.1717E+02 0.0000E+00 0.7287E-02
channel 4 : 2 F 0 1355 0.1692E+02 0.0000E+00 0.5186E-02
channel 5 : 3 F 0 5041 0.6332E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4835 0.6313E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 1 , 78925
with seed 52
Ranmar initialization seeds 5028 28191
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.810799D+02 0.810799D+02 1.00
muF1, muF1_reference: 0.810799D+02 0.810799D+02 1.00
muF2, muF2_reference: 0.810799D+02 0.810799D+02 1.00
QES, QES_reference: 0.810799D+02 0.810799D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12013174748474260
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
REAL 2: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11983151413986692
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.8437780933705966E-004 OLP: -1.8437780933705961E-004
COEFFICIENT SINGLE POLE:
MadFKS: -3.5232630729667170E-004 OLP: -3.5232630729683796E-004
FINITE:
OLP: -9.7744877776209764E-003
BORN: 0.16803317137384796
MOMENTA (Exyzm):
1 91.057767502031851 0.0000000000000000 0.0000000000000000 91.057767502031851 0.0000000000000000
2 91.057767502031851 -0.0000000000000000 -0.0000000000000000 -91.057767502031851 0.0000000000000000
3 91.057767502031851 -15.445525131518643 -9.2816165310143912 38.724524650883900 80.418999999999997
4 91.057767502031851 15.445525131518643 9.2816165310143912 -38.724524650883900 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.8437780933705966E-004 OLP: -1.8437780933705961E-004
COEFFICIENT SINGLE POLE:
MadFKS: -3.5232630729667164E-004 OLP: -3.5232630729683796E-004
ABS integral = 0.6866E+01 +/- 0.3387E-01 ( 0.493 %)
Integral = 0.6776E+01 +/- 0.3424E-01 ( 0.505 %)
Virtual = 0.9916E-02 +/- 0.1608E-01 ( 162.118 %)
Virtual ratio = -.7898E-01 +/- 0.2764E-02 ( 3.500 %)
ABS virtual = 0.1246E+00 +/- 0.1607E-01 ( 12.895 %)
Born = 0.3892E-01 +/- 0.2843E-02 ( 7.305 %)
V 2 = 0.9916E-02 +/- 0.1608E-01 ( 162.118 %)
B 2 = 0.3892E-01 +/- 0.2843E-02 ( 7.305 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6866E+01 +/- 0.3387E-01 ( 0.493 %)
accumulated results Integral = 0.6776E+01 +/- 0.3424E-01 ( 0.505 %)
accumulated results Virtual = 0.9916E-02 +/- 0.1608E-01 ( 162.118 %)
accumulated results Virtual ratio = -.7898E-01 +/- 0.2764E-02 ( 3.500 %)
accumulated results ABS virtual = 0.1246E+00 +/- 0.1607E-01 ( 12.895 %)
accumulated results Born = 0.3892E-01 +/- 0.2843E-02 ( 7.305 %)
accumulated results V 2 = 0.9916E-02 +/- 0.1608E-01 ( 162.118 %)
accumulated results B 2 = 0.3892E-01 +/- 0.2843E-02 ( 7.305 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1176 318 0.1516E+00 0.1513E+00 0.5000E-02
channel 2 : 1 T 1139 483 0.1429E+00 0.1423E+00 0.5000E-02
channel 3 : 2 T 5074 1286 0.6771E+00 0.6620E+00 0.5155E-02
channel 4 : 2 T 4963 1355 0.6653E+00 0.6480E+00 0.5000E-02
channel 5 : 3 T 18403 5041 0.2555E+01 0.2530E+01 0.5000E-02
channel 6 : 3 T 18399 4835 0.2673E+01 0.2643E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8655502212563109 +/- 3.3874744711406925E-002
Final result: 6.7758946530825819 +/- 3.4240049191630907E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 263
Stability unknown: 0
Stable PS point: 263
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 263
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 263
counters for the granny resonances
ntot 0
Time spent in Born : 0.249226570
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.73899460
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.59619176
Time spent in Integrated_CT : 1.22182989
Time spent in Virtuals : 4.78589964
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.70078659
Time spent in N1body_prefactor : 4.74904031E-02
Time spent in Adding_alphas_pdf : 0.940053701
Time spent in Reweight_scale : 4.07845592
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.30354905
Time spent in Applying_cuts : 0.270453900
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.87744617
Time spent in Other_tasks : 2.21411514
Time spent in Total : 33.0244942
Time in seconds: 56
LOG file for integration channel /P0_ddx_wpwm/all_G1_1, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
343
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 2.0216881405716422E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 1
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.6590E+00 0.0000E+00 0.1120E-01
channel 2 : 1 F 0 256 0.7967E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1705 0.2006E+02 0.0000E+00 0.6753E-02
channel 4 : 2 F 0 1521 0.1906E+02 0.0000E+00 0.8928E-02
channel 5 : 3 F 0 4833 0.5940E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4913 0.5985E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 2 , 3157
with seed 52
Ranmar initialization seeds 5028 12586
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.804914D+02 0.804914D+02 1.00
muF1, muF1_reference: 0.804914D+02 0.804914D+02 1.00
muF2, muF2_reference: 0.804914D+02 0.804914D+02 1.00
QES, QES_reference: 0.804914D+02 0.804914D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12026632859166933
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.11735187201711728
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.5339640319056346E-005 OLP: -1.5339640319056353E-005
COEFFICIENT SINGLE POLE:
MadFKS: 2.9945482168503229E-005 OLP: 2.9945482168621225E-005
FINITE:
OLP: -2.6266217114170316E-003
BORN: 5.5919276182160450E-002
MOMENTA (Exyzm):
1 96.030592346366902 0.0000000000000000 0.0000000000000000 96.030592346366902 0.0000000000000000
2 96.030592346366902 -0.0000000000000000 -0.0000000000000000 -96.030592346366902 0.0000000000000000
3 96.030592346366902 -23.883142823674000 -43.724636870568993 -16.504869729718262 80.418999999999997
4 96.030592346366902 23.883142823674000 43.724636870568993 16.504869729718262 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.5339640319056346E-005 OLP: -1.5339640319056353E-005
COEFFICIENT SINGLE POLE:
MadFKS: 2.9945482168503229E-005 OLP: 2.9945482168621225E-005
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6602E+01 +/- 0.3174E-01 ( 0.481 %)
Integral = 0.6513E+01 +/- 0.3212E-01 ( 0.493 %)
Virtual = 0.2132E-01 +/- 0.1308E-01 ( 61.348 %)
Virtual ratio = -.7732E-01 +/- 0.3828E-02 ( 4.952 %)
ABS virtual = 0.1328E+00 +/- 0.1307E-01 ( 9.838 %)
Born = 0.4546E-01 +/- 0.4874E-02 ( 10.721 %)
V 2 = 0.2132E-01 +/- 0.1308E-01 ( 61.348 %)
B 2 = 0.4546E-01 +/- 0.4874E-02 ( 10.721 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6602E+01 +/- 0.3174E-01 ( 0.481 %)
accumulated results Integral = 0.6513E+01 +/- 0.3212E-01 ( 0.493 %)
accumulated results Virtual = 0.2132E-01 +/- 0.1308E-01 ( 61.348 %)
accumulated results Virtual ratio = -.7732E-01 +/- 0.3828E-02 ( 4.952 %)
accumulated results ABS virtual = 0.1328E+00 +/- 0.1307E-01 ( 9.838 %)
accumulated results Born = 0.4546E-01 +/- 0.4874E-02 ( 10.721 %)
accumulated results V 2 = 0.2132E-01 +/- 0.1308E-01 ( 61.348 %)
accumulated results B 2 = 0.4546E-01 +/- 0.4874E-02 ( 10.721 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 F 210 256 0.3243E-01 0.3241E-01 0.5000E-02
channel 2 : 1 T 273 256 0.3463E-01 0.3463E-01 0.5000E-02
channel 3 : 2 T 6175 1705 0.8023E+00 0.7935E+00 0.5000E-02
channel 4 : 2 T 5762 1521 0.7717E+00 0.7602E+00 0.5000E-02
channel 5 : 3 T 18315 4833 0.2470E+01 0.2452E+01 0.5000E-02
channel 6 : 3 T 18422 4913 0.2491E+01 0.2440E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.6023383293947129 +/- 3.1743204990377971E-002
Final result: 6.5132956417857386 +/- 3.2115277650279057E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 282
Stability unknown: 0
Stable PS point: 282
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 282
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 282
counters for the granny resonances
ntot 0
Time spent in Born : 0.249520689
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.70821190
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.51175427
Time spent in Integrated_CT : 1.21402216
Time spent in Virtuals : 5.19563580
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.70370960
Time spent in N1body_prefactor : 4.79272082E-02
Time spent in Adding_alphas_pdf : 0.873838782
Time spent in Reweight_scale : 3.83909583
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.27404499
Time spent in Applying_cuts : 0.270915121
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.88682795
Time spent in Other_tasks : 2.24157906
Time spent in Total : 33.0170860
Time in seconds: 54
LOG file for integration channel /P0_ddx_wpwm/all_G1_2, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
15044
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 2.0216881405716422E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 2
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.6590E+00 0.0000E+00 0.1120E-01
channel 2 : 1 F 0 256 0.7967E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1705 0.2006E+02 0.0000E+00 0.6753E-02
channel 4 : 2 F 0 1521 0.1906E+02 0.0000E+00 0.8928E-02
channel 5 : 3 F 0 4833 0.5940E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4913 0.5985E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 2 , 6314
with seed 52
Ranmar initialization seeds 5028 15743
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.804938D+02 0.804938D+02 1.00
muF1, muF1_reference: 0.804938D+02 0.804938D+02 1.00
muF2, muF2_reference: 0.804938D+02 0.804938D+02 1.00
QES, QES_reference: 0.804938D+02 0.804938D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12026579119045520
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
REAL 3: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12027144131970137
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -5.7882357153783672E-005 OLP: -5.7882357153717231E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.7628592971248369E-004 OLP: -1.7628592971309705E-004
FINITE:
OLP: -1.0793726171822688E-002
BORN: 0.21100491591943638
MOMENTA (Exyzm):
1 91.143559955700169 0.0000000000000000 0.0000000000000000 91.143559955700169 0.0000000000000000
2 91.143559955700169 -0.0000000000000000 -0.0000000000000000 -91.143559955700169 0.0000000000000000
3 91.143559955700169 -2.0061792562428908 -2.0118521033212935 -42.800241311288140 80.418999999999997
4 91.143559955700169 2.0061792562428908 2.0118521033212935 42.800241311288140 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -5.7882357153783672E-005 OLP: -5.7882357153717231E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.7628592971248363E-004 OLP: -1.7628592971309705E-004
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6527E+01 +/- 0.2716E-01 ( 0.416 %)
Integral = 0.6436E+01 +/- 0.2760E-01 ( 0.429 %)
Virtual = 0.1254E-01 +/- 0.1126E-01 ( 89.772 %)
Virtual ratio = -.7390E-01 +/- 0.2510E-02 ( 3.396 %)
ABS virtual = 0.1274E+00 +/- 0.1124E-01 ( 8.824 %)
Born = 0.4203E-01 +/- 0.3512E-02 ( 8.355 %)
V 2 = 0.1254E-01 +/- 0.1126E-01 ( 89.772 %)
B 2 = 0.4203E-01 +/- 0.3512E-02 ( 8.355 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6527E+01 +/- 0.2716E-01 ( 0.416 %)
accumulated results Integral = 0.6436E+01 +/- 0.2760E-01 ( 0.429 %)
accumulated results Virtual = 0.1254E-01 +/- 0.1126E-01 ( 89.772 %)
accumulated results Virtual ratio = -.7390E-01 +/- 0.2510E-02 ( 3.396 %)
accumulated results ABS virtual = 0.1274E+00 +/- 0.1124E-01 ( 8.824 %)
accumulated results Born = 0.4203E-01 +/- 0.3512E-02 ( 8.355 %)
accumulated results V 2 = 0.1254E-01 +/- 0.1126E-01 ( 89.772 %)
accumulated results B 2 = 0.4203E-01 +/- 0.3512E-02 ( 8.355 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 F 210 256 0.4179E-01 0.4157E-01 0.5000E-02
channel 2 : 1 T 255 256 0.2990E-01 0.2665E-01 0.5000E-02
channel 3 : 2 T 6102 1705 0.7866E+00 0.7731E+00 0.5000E-02
channel 4 : 2 T 5881 1521 0.7904E+00 0.7802E+00 0.5168E-02
channel 5 : 3 T 18372 4833 0.2443E+01 0.2419E+01 0.5000E-02
channel 6 : 3 T 18325 4913 0.2435E+01 0.2395E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5269637985759070 +/- 2.7162864002091502E-002
Final result: 6.4359173807221417 +/- 2.7601320574189309E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 285
Stability unknown: 0
Stable PS point: 285
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 285
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 285
counters for the granny resonances
ntot 0
Time spent in Born : 0.265818566
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.21899271
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.71096170
Time spent in Integrated_CT : 1.31779957
Time spent in Virtuals : 5.61521149
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.15722179
Time spent in N1body_prefactor : 5.21486104E-02
Time spent in Adding_alphas_pdf : 0.997153342
Time spent in Reweight_scale : 4.31491995
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.38838494
Time spent in Applying_cuts : 0.294777334
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.89809704
Time spent in Other_tasks : 2.40119934
Time spent in Total : 36.6326904
Time in seconds: 68
LOG file for integration channel /P0_ddx_wpwm/all_G1_3, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
15024
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 2.0216881405716422E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 3
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.6590E+00 0.0000E+00 0.1120E-01
channel 2 : 1 F 0 256 0.7967E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1705 0.2006E+02 0.0000E+00 0.6753E-02
channel 4 : 2 F 0 1521 0.1906E+02 0.0000E+00 0.8928E-02
channel 5 : 3 F 0 4833 0.5940E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4913 0.5985E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 2 , 9471
with seed 52
Ranmar initialization seeds 5028 18900
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.818532D+02 0.818532D+02 1.00
muF1, muF1_reference: 0.818532D+02 0.818532D+02 1.00
muF2, muF2_reference: 0.818532D+02 0.818532D+02 1.00
QES, QES_reference: 0.818532D+02 0.818532D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.11995683516192022
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11936921522850984
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -7.5941730911594971E-005 OLP: -7.5941730911594890E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.2776091157869565E-004 OLP: -1.2776091157871381E-004
FINITE:
OLP: -1.8212219942158277E-002
BORN: 0.27683873521605695
MOMENTA (Exyzm):
1 107.42400957385020 0.0000000000000000 0.0000000000000000 107.42400957385020 0.0000000000000000
2 107.42400957385020 -0.0000000000000000 -0.0000000000000000 -107.42400957385020 0.0000000000000000
3 107.42400957385020 -25.844074497799937 -2.9855314325512006 -66.301377718265229 80.418999999999997
4 107.42400957385020 25.844074497799937 2.9855314325512006 66.301377718265229 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -7.5941730911594971E-005 OLP: -7.5941730911594890E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.2776091157869532E-004 OLP: -1.2776091157871381E-004
ABS integral = 0.6530E+01 +/- 0.2926E-01 ( 0.448 %)
Integral = 0.6435E+01 +/- 0.2968E-01 ( 0.461 %)
Virtual = -.9985E-02 +/- 0.9984E-02 ( 99.990 %)
Virtual ratio = -.7902E-01 +/- 0.3475E-02 ( 4.398 %)
ABS virtual = 0.1084E+00 +/- 0.9972E-02 ( 9.202 %)
Born = 0.3661E-01 +/- 0.2946E-02 ( 8.047 %)
V 2 = -.9985E-02 +/- 0.9984E-02 ( 99.990 %)
B 2 = 0.3661E-01 +/- 0.2946E-02 ( 8.047 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6530E+01 +/- 0.2926E-01 ( 0.448 %)
accumulated results Integral = 0.6435E+01 +/- 0.2968E-01 ( 0.461 %)
accumulated results Virtual = -.9985E-02 +/- 0.9984E-02 ( 99.990 %)
accumulated results Virtual ratio = -.7902E-01 +/- 0.3475E-02 ( 4.398 %)
accumulated results ABS virtual = 0.1084E+00 +/- 0.9972E-02 ( 9.202 %)
accumulated results Born = 0.3661E-01 +/- 0.2946E-02 ( 8.047 %)
accumulated results V 2 = -.9985E-02 +/- 0.9984E-02 ( 99.990 %)
accumulated results B 2 = 0.3661E-01 +/- 0.2946E-02 ( 8.047 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 F 221 256 0.3497E-01 0.3497E-01 0.5000E-02
channel 2 : 1 T 235 256 0.3872E-01 0.3871E-01 0.5000E-02
channel 3 : 2 T 6269 1705 0.7958E+00 0.7719E+00 0.5000E-02
channel 4 : 2 T 5752 1521 0.7791E+00 0.7642E+00 0.5000E-02
channel 5 : 3 T 18283 4833 0.2441E+01 0.2416E+01 0.5000E-02
channel 6 : 3 T 18395 4913 0.2441E+01 0.2410E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5303702282586746 +/- 2.9256231217979382E-002
Final result: 6.4349672396010993 +/- 2.9683202487124534E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 256
Stability unknown: 0
Stable PS point: 256
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 256
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 256
counters for the granny resonances
ntot 0
Time spent in Born : 0.269112676
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.28358936
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.71057642
Time spent in Integrated_CT : 1.32442570
Time spent in Virtuals : 5.06378937
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.18438196
Time spent in N1body_prefactor : 5.37806451E-02
Time spent in Adding_alphas_pdf : 1.01750028
Time spent in Reweight_scale : 4.35420132
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.38050282
Time spent in Applying_cuts : 0.296879709
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.96334696
Time spent in Other_tasks : 2.37738419
Time spent in Total : 36.2794685
Time in seconds: 68
LOG file for integration channel /P0_ddx_wpwm/all_G1_4, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
15025
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 2.0216881405716422E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 4
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.6590E+00 0.0000E+00 0.1120E-01
channel 2 : 1 F 0 256 0.7967E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1705 0.2006E+02 0.0000E+00 0.6753E-02
channel 4 : 2 F 0 1521 0.1906E+02 0.0000E+00 0.8928E-02
channel 5 : 3 F 0 4833 0.5940E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4913 0.5985E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 2 , 12628
with seed 52
Ranmar initialization seeds 5028 22057
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.809946D+02 0.809946D+02 1.00
muF1, muF1_reference: 0.809946D+02 0.809946D+02 1.00
muF2, muF2_reference: 0.809946D+02 0.809946D+02 1.00
QES, QES_reference: 0.809946D+02 0.809946D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12015118491401754
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11991140617691240
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
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{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.5954063385195415E-005 OLP: -1.5954063385195892E-005
COEFFICIENT SINGLE POLE:
MadFKS: 6.9869646953413819E-006 OLP: 6.9869647041159927E-006
FINITE:
OLP: -2.8654571607201324E-004
BORN: 5.8159100090250243E-002
MOMENTA (Exyzm):
1 82.056986186676937 0.0000000000000000 0.0000000000000000 82.056986186676937 0.0000000000000000
2 82.056986186676937 -0.0000000000000000 -0.0000000000000000 -82.056986186676937 0.0000000000000000
3 82.056986186676937 -10.857632191429859 -12.166288885696412 0.47608716207883489 80.418999999999997
4 82.056986186676937 10.857632191429859 12.166288885696412 -0.47608716207883489 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.5954063385195415E-005 OLP: -1.5954063385195892E-005
COEFFICIENT SINGLE POLE:
MadFKS: 6.9869646953414090E-006 OLP: 6.9869647041159927E-006
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6592E+01 +/- 0.3077E-01 ( 0.467 %)
Integral = 0.6500E+01 +/- 0.3116E-01 ( 0.479 %)
Virtual = 0.1084E-01 +/- 0.1164E-01 ( 107.377 %)
Virtual ratio = -.7298E-01 +/- 0.2702E-02 ( 3.703 %)
ABS virtual = 0.1308E+00 +/- 0.1163E-01 ( 8.887 %)
Born = 0.4606E-01 +/- 0.3194E-02 ( 6.933 %)
V 2 = 0.1084E-01 +/- 0.1164E-01 ( 107.377 %)
B 2 = 0.4606E-01 +/- 0.3194E-02 ( 6.933 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6592E+01 +/- 0.3077E-01 ( 0.467 %)
accumulated results Integral = 0.6500E+01 +/- 0.3116E-01 ( 0.479 %)
accumulated results Virtual = 0.1084E-01 +/- 0.1164E-01 ( 107.377 %)
accumulated results Virtual ratio = -.7298E-01 +/- 0.2702E-02 ( 3.703 %)
accumulated results ABS virtual = 0.1308E+00 +/- 0.1163E-01 ( 8.887 %)
accumulated results Born = 0.4606E-01 +/- 0.3194E-02 ( 6.933 %)
accumulated results V 2 = 0.1084E-01 +/- 0.1164E-01 ( 107.377 %)
accumulated results B 2 = 0.4606E-01 +/- 0.3194E-02 ( 6.933 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 F 163 256 0.3452E-01 0.3452E-01 0.5000E-02
channel 2 : 1 T 243 256 0.3280E-01 0.3280E-01 0.5000E-02
channel 3 : 2 T 6307 1705 0.8134E+00 0.8053E+00 0.5000E-02
channel 4 : 2 T 5910 1521 0.7915E+00 0.7836E+00 0.5000E-02
channel 5 : 3 T 18254 4833 0.2468E+01 0.2432E+01 0.5000E-02
channel 6 : 3 T 18274 4913 0.2452E+01 0.2412E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5918940881645218 +/- 3.0766669952633604E-002
Final result: 6.4997411103709402 +/- 3.1163005721638312E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 305
Stability unknown: 0
Stable PS point: 305
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 305
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 305
counters for the granny resonances
ntot 0
Time spent in Born : 0.265839219
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.27752590
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.71957111
Time spent in Integrated_CT : 1.31385565
Time spent in Virtuals : 5.99930334
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.17209148
Time spent in N1body_prefactor : 5.21210581E-02
Time spent in Adding_alphas_pdf : 1.00941491
Time spent in Reweight_scale : 4.35143328
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.42573619
Time spent in Applying_cuts : 0.298387617
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.95291662
Time spent in Other_tasks : 2.36763000
Time spent in Total : 37.2058220
Time in seconds: 68
LOG file for integration channel /P0_ddx_wpwm/all_G1_5, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
15043
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 2.0216881405716422E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 5
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.6590E+00 0.0000E+00 0.1120E-01
channel 2 : 1 F 0 256 0.7967E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1705 0.2006E+02 0.0000E+00 0.6753E-02
channel 4 : 2 F 0 1521 0.1906E+02 0.0000E+00 0.8928E-02
channel 5 : 3 F 0 4833 0.5940E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4913 0.5985E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 2 , 15785
with seed 52
Ranmar initialization seeds 5028 25214
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.804416D+02 0.804416D+02 1.00
muF1, muF1_reference: 0.804416D+02 0.804416D+02 1.00
muF2, muF2_reference: 0.804416D+02 0.804416D+02 1.00
QES, QES_reference: 0.804416D+02 0.804416D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12027777828178515
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.12025640481712470
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
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{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -4.9187913515190151E-005 OLP: -4.9187913515188342E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.4488112766374847E-004 OLP: -1.4488112766361725E-004
FINITE:
OLP: -8.8728528574477938E-003
BORN: 0.17931010528735447
MOMENTA (Exyzm):
1 88.117667083105204 0.0000000000000000 0.0000000000000000 88.117667083105204 0.0000000000000000
2 88.117667083105204 -0.0000000000000000 -0.0000000000000000 -88.117667083105204 0.0000000000000000
3 88.117667083105204 -2.1446366678028159 -3.7430652795428410 -35.761679030005844 80.418999999999997
4 88.117667083105204 2.1446366678028159 3.7430652795428410 35.761679030005844 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -4.9187913515190151E-005 OLP: -4.9187913515188342E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.4488112766374841E-004 OLP: -1.4488112766361725E-004
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6555E+01 +/- 0.2691E-01 ( 0.411 %)
Integral = 0.6460E+01 +/- 0.2737E-01 ( 0.424 %)
Virtual = -.2679E-02 +/- 0.1002E-01 ( 374.058 %)
Virtual ratio = -.7312E-01 +/- 0.2739E-02 ( 3.746 %)
ABS virtual = 0.1175E+00 +/- 0.1001E-01 ( 8.516 %)
Born = 0.4294E-01 +/- 0.3254E-02 ( 7.579 %)
V 2 = -.2679E-02 +/- 0.1002E-01 ( 374.058 %)
B 2 = 0.4294E-01 +/- 0.3254E-02 ( 7.579 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6555E+01 +/- 0.2691E-01 ( 0.411 %)
accumulated results Integral = 0.6460E+01 +/- 0.2737E-01 ( 0.424 %)
accumulated results Virtual = -.2679E-02 +/- 0.1002E-01 ( 374.058 %)
accumulated results Virtual ratio = -.7312E-01 +/- 0.2739E-02 ( 3.746 %)
accumulated results ABS virtual = 0.1175E+00 +/- 0.1001E-01 ( 8.516 %)
accumulated results Born = 0.4294E-01 +/- 0.3254E-02 ( 7.579 %)
accumulated results V 2 = -.2679E-02 +/- 0.1002E-01 ( 374.058 %)
accumulated results B 2 = 0.4294E-01 +/- 0.3254E-02 ( 7.579 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 F 213 256 0.3597E-01 0.3596E-01 0.5000E-02
channel 2 : 1 T 258 256 0.3501E-01 0.3500E-01 0.5000E-02
channel 3 : 2 T 6160 1705 0.8119E+00 0.7881E+00 0.5558E-02
channel 4 : 2 T 5838 1521 0.7868E+00 0.7795E+00 0.5000E-02
channel 5 : 3 T 18288 4833 0.2447E+01 0.2418E+01 0.5000E-02
channel 6 : 3 T 18391 4913 0.2438E+01 0.2404E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5547871413146055 +/- 2.6908574831767680E-002
Final result: 6.4602988528290410 +/- 2.7369530490732524E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 292
Stability unknown: 0
Stable PS point: 292
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 292
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 292
counters for the granny resonances
ntot 0
Time spent in Born : 0.268062562
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.27864552
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.71941662
Time spent in Integrated_CT : 1.32098770
Time spent in Virtuals : 5.76368999
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.18928528
Time spent in N1body_prefactor : 5.37858754E-02
Time spent in Adding_alphas_pdf : 1.00835347
Time spent in Reweight_scale : 4.35324383
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.39514112
Time spent in Applying_cuts : 0.293344438
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 8.00161362
Time spent in Other_tasks : 2.38005829
Time spent in Total : 37.0256271
Time in seconds: 68
LOG file for integration channel /P0_ddx_wpwm/all_G1_6, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
15036
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 2.0216881405716422E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 6
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.6590E+00 0.0000E+00 0.1120E-01
channel 2 : 1 F 0 256 0.7967E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1705 0.2006E+02 0.0000E+00 0.6753E-02
channel 4 : 2 F 0 1521 0.1906E+02 0.0000E+00 0.8928E-02
channel 5 : 3 F 0 4833 0.5940E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4913 0.5985E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 2 , 18942
with seed 52
Ranmar initialization seeds 5028 28371
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.994818D+02 0.994818D+02 1.00
muF1, muF1_reference: 0.994818D+02 0.994818D+02 1.00
muF2, muF2_reference: 0.994818D+02 0.994818D+02 1.00
QES, QES_reference: 0.994818D+02 0.994818D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.11647379585875281
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
REAL 2: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11831217719013704
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.6362301150873970E-006 OLP: -1.6362301150873799E-006
COEFFICIENT SINGLE POLE:
MadFKS: 2.7008087046783348E-005 OLP: 2.7008087046783582E-005
FINITE:
OLP: -5.2098921875676587E-004
BORN: 5.9647294069518951E-003
MOMENTA (Exyzm):
1 112.93871051943493 0.0000000000000000 0.0000000000000000 112.93871051943493 0.0000000000000000
2 112.93871051943493 -0.0000000000000000 -0.0000000000000000 -112.93871051943493 0.0000000000000000
3 112.93871051943493 -39.370851790211617 -3.7324044519441073 68.730938878448484 80.418999999999997
4 112.93871051943493 39.370851790211617 3.7324044519441073 -68.730938878448484 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.6362301150873970E-006 OLP: -1.6362301150873799E-006
COEFFICIENT SINGLE POLE:
MadFKS: 2.7008087046783342E-005 OLP: 2.7008087046783582E-005
ABS integral = 0.6531E+01 +/- 0.2687E-01 ( 0.411 %)
Integral = 0.6458E+01 +/- 0.2723E-01 ( 0.422 %)
Virtual = 0.5747E-02 +/- 0.8460E-02 ( 147.224 %)
Virtual ratio = -.7646E-01 +/- 0.3158E-02 ( 4.130 %)
ABS virtual = 0.1007E+00 +/- 0.8448E-02 ( 8.389 %)
Born = 0.4068E-01 +/- 0.2870E-02 ( 7.055 %)
V 2 = 0.5747E-02 +/- 0.8460E-02 ( 147.224 %)
B 2 = 0.4068E-01 +/- 0.2870E-02 ( 7.055 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6531E+01 +/- 0.2687E-01 ( 0.411 %)
accumulated results Integral = 0.6458E+01 +/- 0.2723E-01 ( 0.422 %)
accumulated results Virtual = 0.5747E-02 +/- 0.8460E-02 ( 147.224 %)
accumulated results Virtual ratio = -.7646E-01 +/- 0.3158E-02 ( 4.130 %)
accumulated results ABS virtual = 0.1007E+00 +/- 0.8448E-02 ( 8.389 %)
accumulated results Born = 0.4068E-01 +/- 0.2870E-02 ( 7.055 %)
accumulated results V 2 = 0.5747E-02 +/- 0.8460E-02 ( 147.224 %)
accumulated results B 2 = 0.4068E-01 +/- 0.2870E-02 ( 7.055 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 F 196 256 0.3277E-01 0.3277E-01 0.5000E-02
channel 2 : 1 T 256 256 0.3098E-01 0.3097E-01 0.5000E-02
channel 3 : 2 T 6080 1705 0.7784E+00 0.7650E+00 0.5000E-02
channel 4 : 2 T 5813 1521 0.7926E+00 0.7797E+00 0.6218E-02
channel 5 : 3 T 18342 4833 0.2450E+01 0.2429E+01 0.5000E-02
channel 6 : 3 T 18469 4913 0.2446E+01 0.2421E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5310370912395257 +/- 2.6871924382124837E-002
Final result: 6.4580915382419093 +/- 2.7228243424396337E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 288
Stability unknown: 0
Stable PS point: 288
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 288
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 288
counters for the granny resonances
ntot 0
Time spent in Born : 0.266943216
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.23369408
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.71096706
Time spent in Integrated_CT : 1.31347466
Time spent in Virtuals : 5.67324066
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.17206335
Time spent in N1body_prefactor : 5.43914288E-02
Time spent in Adding_alphas_pdf : 1.00933862
Time spent in Reweight_scale : 4.33915997
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.42427087
Time spent in Applying_cuts : 0.300268948
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.91722727
Time spent in Other_tasks : 2.39314651
Time spent in Total : 36.8081856
Time in seconds: 68
LOG file for integration channel /P0_ddx_wpwm/all_G1_7, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
15035
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 2.0216881405716422E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 7
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.6590E+00 0.0000E+00 0.1120E-01
channel 2 : 1 F 0 256 0.7967E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1705 0.2006E+02 0.0000E+00 0.6753E-02
channel 4 : 2 F 0 1521 0.1906E+02 0.0000E+00 0.8928E-02
channel 5 : 3 F 0 4833 0.5940E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4913 0.5985E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 2 , 22099
with seed 52
Ranmar initialization seeds 5028 1447
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.814318D+02 0.814318D+02 1.00
muF1, muF1_reference: 0.814318D+02 0.814318D+02 1.00
muF2, muF2_reference: 0.814318D+02 0.814318D+02 1.00
QES, QES_reference: 0.814318D+02 0.814318D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12005188448691735
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 3: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
REAL 1: keeping split order 1
REAL 2: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12019476875577227
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -4.4746648386908869E-005 OLP: -4.4746648386910238E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.2457055948351194E-004 OLP: -1.2457055948344878E-004
FINITE:
OLP: -7.6580008570050172E-003
BORN: 0.16311987356477406
MOMENTA (Exyzm):
1 87.089627476518061 0.0000000000000000 0.0000000000000000 87.089627476518061 0.0000000000000000
2 87.089627476518061 -0.0000000000000000 -0.0000000000000000 -87.089627476518061 0.0000000000000000
3 87.089627476518061 -3.3419524883150036 -7.1304743571082563 -32.486540936319408 80.418999999999997
4 87.089627476518061 3.3419524883150036 7.1304743571082563 32.486540936319408 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -4.4746648386908869E-005 OLP: -4.4746648386910238E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.2457055948351199E-004 OLP: -1.2457055948344878E-004
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6546E+01 +/- 0.2819E-01 ( 0.431 %)
Integral = 0.6475E+01 +/- 0.2852E-01 ( 0.440 %)
Virtual = 0.1510E-01 +/- 0.1173E-01 ( 77.680 %)
Virtual ratio = -.7396E-01 +/- 0.2934E-02 ( 3.966 %)
ABS virtual = 0.1129E+00 +/- 0.1172E-01 ( 10.376 %)
Born = 0.4025E-01 +/- 0.2929E-02 ( 7.279 %)
V 2 = 0.1510E-01 +/- 0.1173E-01 ( 77.680 %)
B 2 = 0.4025E-01 +/- 0.2929E-02 ( 7.279 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6546E+01 +/- 0.2819E-01 ( 0.431 %)
accumulated results Integral = 0.6475E+01 +/- 0.2852E-01 ( 0.440 %)
accumulated results Virtual = 0.1510E-01 +/- 0.1173E-01 ( 77.680 %)
accumulated results Virtual ratio = -.7396E-01 +/- 0.2934E-02 ( 3.966 %)
accumulated results ABS virtual = 0.1129E+00 +/- 0.1172E-01 ( 10.376 %)
accumulated results Born = 0.4025E-01 +/- 0.2929E-02 ( 7.279 %)
accumulated results V 2 = 0.1510E-01 +/- 0.1173E-01 ( 77.680 %)
accumulated results B 2 = 0.4025E-01 +/- 0.2929E-02 ( 7.279 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 F 173 256 0.2881E-01 0.2880E-01 0.5000E-02
channel 2 : 1 T 234 256 0.3170E-01 0.3139E-01 0.5000E-02
channel 3 : 2 T 6089 1705 0.7711E+00 0.7618E+00 0.5000E-02
channel 4 : 2 T 5911 1521 0.8054E+00 0.7998E+00 0.5000E-02
channel 5 : 3 T 18382 4833 0.2451E+01 0.2425E+01 0.5000E-02
channel 6 : 3 T 18365 4913 0.2458E+01 0.2428E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5461836900510741 +/- 2.8185410389721149E-002
Final result: 6.4745978938705733 +/- 2.8519835961244605E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 268
Stability unknown: 0
Stable PS point: 268
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 268
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 268
counters for the granny resonances
ntot 0
Time spent in Born : 0.267150342
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.26555061
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.72057366
Time spent in Integrated_CT : 1.32848787
Time spent in Virtuals : 5.29830170
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.20485306
Time spent in N1body_prefactor : 5.37089407E-02
Time spent in Adding_alphas_pdf : 1.00840223
Time spent in Reweight_scale : 4.35401249
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.41088796
Time spent in Applying_cuts : 0.293983519
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.97389030
Time spent in Other_tasks : 2.40791702
Time spent in Total : 36.5877190
Time in seconds: 68
LOG file for integration channel /P0_ddx_wpwm/all_G1_8, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
15038
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 2.0216881405716422E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 8
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.6590E+00 0.0000E+00 0.1120E-01
channel 2 : 1 F 0 256 0.7967E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1705 0.2006E+02 0.0000E+00 0.6753E-02
channel 4 : 2 F 0 1521 0.1906E+02 0.0000E+00 0.8928E-02
channel 5 : 3 F 0 4833 0.5940E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4913 0.5985E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 2 , 25256
with seed 52
Ranmar initialization seeds 5028 4604
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.841697D+02 0.841697D+02 1.00
muF1, muF1_reference: 0.841697D+02 0.841697D+02 1.00
muF2, muF2_reference: 0.841697D+02 0.841697D+02 1.00
QES, QES_reference: 0.841697D+02 0.841697D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.11944547994499920
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11711647370997867
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -9.8542846713365497E-007 OLP: -9.8542846713366132E-007
COEFFICIENT SINGLE POLE:
MadFKS: 2.2165956056700162E-005 OLP: 2.2165956056700762E-005
FINITE:
OLP: -4.4162030406971455E-004
BORN: 3.5922906577512087E-003
MOMENTA (Exyzm):
1 135.01301032554312 0.0000000000000000 0.0000000000000000 135.01301032554312 0.0000000000000000
2 135.01301032554312 -0.0000000000000000 -0.0000000000000000 -135.01301032554312 0.0000000000000000
3 135.01301032554312 -50.020473583966734 -14.948431427856375 95.056793636475959 80.418999999999997
4 135.01301032554312 50.020473583966734 14.948431427856375 -95.056793636475959 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -9.8542846713365497E-007 OLP: -9.8542846713366132E-007
COEFFICIENT SINGLE POLE:
MadFKS: 2.2165956056700156E-005 OLP: 2.2165956056700762E-005
ABS integral = 0.6544E+01 +/- 0.2828E-01 ( 0.432 %)
Integral = 0.6444E+01 +/- 0.2875E-01 ( 0.446 %)
Virtual = -.1211E-01 +/- 0.1006E-01 ( 83.053 %)
Virtual ratio = -.8418E-01 +/- 0.4147E-02 ( 4.926 %)
ABS virtual = 0.1125E+00 +/- 0.1004E-01 ( 8.933 %)
Born = 0.4076E-01 +/- 0.3492E-02 ( 8.567 %)
V 2 = -.1211E-01 +/- 0.1006E-01 ( 83.053 %)
B 2 = 0.4076E-01 +/- 0.3492E-02 ( 8.567 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6544E+01 +/- 0.2828E-01 ( 0.432 %)
accumulated results Integral = 0.6444E+01 +/- 0.2875E-01 ( 0.446 %)
accumulated results Virtual = -.1211E-01 +/- 0.1006E-01 ( 83.053 %)
accumulated results Virtual ratio = -.8418E-01 +/- 0.4147E-02 ( 4.926 %)
accumulated results ABS virtual = 0.1125E+00 +/- 0.1004E-01 ( 8.933 %)
accumulated results Born = 0.4076E-01 +/- 0.3492E-02 ( 8.567 %)
accumulated results V 2 = -.1211E-01 +/- 0.1006E-01 ( 83.053 %)
accumulated results B 2 = 0.4076E-01 +/- 0.3492E-02 ( 8.567 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 F 212 256 0.3321E-01 0.3321E-01 0.5000E-02
channel 2 : 1 T 246 256 0.3271E-01 0.2966E-01 0.5000E-02
channel 3 : 2 T 6199 1705 0.7845E+00 0.7769E+00 0.5000E-02
channel 4 : 2 T 5887 1521 0.7907E+00 0.7754E+00 0.5222E-02
channel 5 : 3 T 18168 4833 0.2443E+01 0.2407E+01 0.5000E-02
channel 6 : 3 T 18440 4913 0.2460E+01 0.2421E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5442524341397386 +/- 2.8283053493731652E-002
Final result: 6.4435695566866569 +/- 2.8749527796623563E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 281
Stability unknown: 0
Stable PS point: 281
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 281
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 281
counters for the granny resonances
ntot 0
Time spent in Born : 0.266201735
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.26086521
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.73907316
Time spent in Integrated_CT : 1.32189035
Time spent in Virtuals : 5.53285027
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.19085598
Time spent in N1body_prefactor : 5.28693497E-02
Time spent in Adding_alphas_pdf : 1.00185668
Time spent in Reweight_scale : 4.35039997
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.41369200
Time spent in Applying_cuts : 0.292846888
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.96254778
Time spent in Other_tasks : 2.37326431
Time spent in Total : 36.7592125
Time in seconds: 68
LOG file for integration channel /P0_ddx_wpwm/all_G1_9, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
15037
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 2.0216881405716422E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 9
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.6590E+00 0.0000E+00 0.1120E-01
channel 2 : 1 F 0 256 0.7967E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1705 0.2006E+02 0.0000E+00 0.6753E-02
channel 4 : 2 F 0 1521 0.1906E+02 0.0000E+00 0.8928E-02
channel 5 : 3 F 0 4833 0.5940E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4913 0.5985E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 2 , 28413
with seed 52
Ranmar initialization seeds 5028 7761
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.805278D+02 0.805278D+02 1.00
muF1, muF1_reference: 0.805278D+02 0.805278D+02 1.00
muF2, muF2_reference: 0.805278D+02 0.805278D+02 1.00
QES, QES_reference: 0.805278D+02 0.805278D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12025798146100382
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.12022274379978699
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -9.9962292040300704E-005 OLP: -9.9962292040296639E-005
COEFFICIENT SINGLE POLE:
MadFKS: -2.4563805784847564E-004 OLP: -2.4563805784842089E-004
FINITE:
OLP: -2.4731583251814616E-002
BORN: 0.36440352577623059
MOMENTA (Exyzm):
1 107.52777097904372 0.0000000000000000 0.0000000000000000 107.52777097904372 0.0000000000000000
2 107.52777097904372 -0.0000000000000000 -0.0000000000000000 -107.52777097904372 0.0000000000000000
3 107.52777097904372 -6.4859793608877023 -0.45142553592087042 -71.082587582595337 80.418999999999997
4 107.52777097904372 6.4859793608877023 0.45142553592087042 71.082587582595337 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -9.9962292040300704E-005 OLP: -9.9962292040296639E-005
COEFFICIENT SINGLE POLE:
MadFKS: -2.4563805784847542E-004 OLP: -2.4563805784842089E-004
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6563E+01 +/- 0.3141E-01 ( 0.479 %)
Integral = 0.6473E+01 +/- 0.3179E-01 ( 0.491 %)
Virtual = 0.1188E-01 +/- 0.1116E-01 ( 93.926 %)
Virtual ratio = -.7967E-01 +/- 0.3474E-02 ( 4.360 %)
ABS virtual = 0.1276E+00 +/- 0.1115E-01 ( 8.739 %)
Born = 0.4936E-01 +/- 0.4204E-02 ( 8.518 %)
V 2 = 0.1188E-01 +/- 0.1116E-01 ( 93.926 %)
B 2 = 0.4936E-01 +/- 0.4204E-02 ( 8.518 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6563E+01 +/- 0.3141E-01 ( 0.479 %)
accumulated results Integral = 0.6473E+01 +/- 0.3179E-01 ( 0.491 %)
accumulated results Virtual = 0.1188E-01 +/- 0.1116E-01 ( 93.926 %)
accumulated results Virtual ratio = -.7967E-01 +/- 0.3474E-02 ( 4.360 %)
accumulated results ABS virtual = 0.1276E+00 +/- 0.1115E-01 ( 8.739 %)
accumulated results Born = 0.4936E-01 +/- 0.4204E-02 ( 8.518 %)
accumulated results V 2 = 0.1188E-01 +/- 0.1116E-01 ( 93.926 %)
accumulated results B 2 = 0.4936E-01 +/- 0.4204E-02 ( 8.518 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 F 175 256 0.3292E-01 0.3292E-01 0.5000E-02
channel 2 : 1 T 233 256 0.4100E-01 0.4093E-01 0.5000E-02
channel 3 : 2 T 6070 1705 0.7706E+00 0.7580E+00 0.5000E-02
channel 4 : 2 T 5849 1521 0.7882E+00 0.7716E+00 0.5433E-02
channel 5 : 3 T 18198 4833 0.2448E+01 0.2423E+01 0.5000E-02
channel 6 : 3 T 18627 4913 0.2482E+01 0.2447E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5629164451882938 +/- 3.1409501086272745E-002
Final result: 6.4730896485953826 +/- 3.1786482376208840E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 307
Stability unknown: 0
Stable PS point: 307
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 307
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 307
counters for the granny resonances
ntot 0
Time spent in Born : 0.266350746
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.22540569
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.71294785
Time spent in Integrated_CT : 1.31527281
Time spent in Virtuals : 5.99556017
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.17425346
Time spent in N1body_prefactor : 5.31382710E-02
Time spent in Adding_alphas_pdf : 1.00690317
Time spent in Reweight_scale : 4.35583973
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.41314578
Time spent in Applying_cuts : 0.296580970
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.95310402
Time spent in Other_tasks : 2.40669632
Time spent in Total : 37.1751976
Time in seconds: 68
LOG file for integration channel /P0_ddx_wpwm/all_G1_10, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
15034
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 2.0216881405716422E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 10
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.6590E+00 0.0000E+00 0.1120E-01
channel 2 : 1 F 0 256 0.7967E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1705 0.2006E+02 0.0000E+00 0.6753E-02
channel 4 : 2 F 0 1521 0.1906E+02 0.0000E+00 0.8928E-02
channel 5 : 3 F 0 4833 0.5940E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4913 0.5985E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 2 , 31570
with seed 52
Ranmar initialization seeds 5028 10918
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.819195D+02 0.819195D+02 1.00
muF1, muF1_reference: 0.819195D+02 0.819195D+02 1.00
muF2, muF2_reference: 0.819195D+02 0.819195D+02 1.00
QES, QES_reference: 0.819195D+02 0.819195D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.11994194772438896
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
REAL 2: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12018926305196487
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -3.5116078475346983E-005 OLP: -3.5116078475347633E-005
COEFFICIENT SINGLE POLE:
MadFKS: -8.3048052563613681E-005 OLP: -8.3048052562672783E-005
FINITE:
OLP: -4.4177456487690166E-003
BORN: 0.12801249898003786
MOMENTA (Exyzm):
1 84.063348750097376 0.0000000000000000 0.0000000000000000 84.063348750097376 0.0000000000000000
2 84.063348750097376 -0.0000000000000000 -0.0000000000000000 -84.063348750097376 0.0000000000000000
3 84.063348750097376 -4.3109460861619118 -6.8790467200474907 -23.098170969713337 80.418999999999997
4 84.063348750097376 4.3109460861619118 6.8790467200474907 23.098170969713333 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -3.5116078475346983E-005 OLP: -3.5116078475347633E-005
COEFFICIENT SINGLE POLE:
MadFKS: -8.3048052563613681E-005 OLP: -8.3048052562672783E-005
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6582E+01 +/- 0.2896E-01 ( 0.440 %)
Integral = 0.6483E+01 +/- 0.2941E-01 ( 0.454 %)
Virtual = 0.9578E-02 +/- 0.1144E-01 ( 119.478 %)
Virtual ratio = -.7452E-01 +/- 0.3284E-02 ( 4.407 %)
ABS virtual = 0.1337E+00 +/- 0.1143E-01 ( 8.550 %)
Born = 0.4211E-01 +/- 0.2899E-02 ( 6.884 %)
V 2 = 0.9578E-02 +/- 0.1144E-01 ( 119.478 %)
B 2 = 0.4211E-01 +/- 0.2899E-02 ( 6.884 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6582E+01 +/- 0.2896E-01 ( 0.440 %)
accumulated results Integral = 0.6483E+01 +/- 0.2941E-01 ( 0.454 %)
accumulated results Virtual = 0.9578E-02 +/- 0.1144E-01 ( 119.478 %)
accumulated results Virtual ratio = -.7452E-01 +/- 0.3284E-02 ( 4.407 %)
accumulated results ABS virtual = 0.1337E+00 +/- 0.1143E-01 ( 8.550 %)
accumulated results Born = 0.4211E-01 +/- 0.2899E-02 ( 6.884 %)
accumulated results V 2 = 0.9578E-02 +/- 0.1144E-01 ( 119.478 %)
accumulated results B 2 = 0.4211E-01 +/- 0.2899E-02 ( 6.884 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 F 187 256 0.3130E-01 0.3127E-01 0.5000E-02
channel 2 : 1 F 227 256 0.3593E-01 0.3593E-01 0.5000E-02
channel 3 : 2 T 6146 1705 0.7987E+00 0.7936E+00 0.5000E-02
channel 4 : 2 T 5842 1521 0.7992E+00 0.7747E+00 0.7634E-02
channel 5 : 3 T 18153 4833 0.2412E+01 0.2379E+01 0.5000E-02
channel 6 : 3 T 18597 4913 0.2505E+01 0.2468E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5820163674717485 +/- 2.8958575336607246E-002
Final result: 6.4830072901579152 +/- 2.9409463586498489E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 293
Stability unknown: 0
Stable PS point: 293
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 293
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 293
counters for the granny resonances
ntot 0
Time spent in Born : 0.266868830
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.26886845
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.72238767
Time spent in Integrated_CT : 1.32320404
Time spent in Virtuals : 5.77910137
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.21384621
Time spent in N1body_prefactor : 5.29251248E-02
Time spent in Adding_alphas_pdf : 1.00470638
Time spent in Reweight_scale : 4.35729265
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.38320994
Time spent in Applying_cuts : 0.292560548
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.96198654
Time spent in Other_tasks : 2.38421249
Time spent in Total : 37.0111694
Time in seconds: 68
LOG file for integration channel /P0_ddx_wpwm/all_G1_11, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
15033
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 2.0216881405716422E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 11
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.6590E+00 0.0000E+00 0.1120E-01
channel 2 : 1 F 0 256 0.7967E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1705 0.2006E+02 0.0000E+00 0.6753E-02
channel 4 : 2 F 0 1521 0.1906E+02 0.0000E+00 0.8928E-02
channel 5 : 3 F 0 4833 0.5940E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4913 0.5985E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 2 , 34727
with seed 52
Ranmar initialization seeds 5028 14075
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.809116D+02 0.809116D+02 1.00
muF1, muF1_reference: 0.809116D+02 0.809116D+02 1.00
muF2, muF2_reference: 0.809116D+02 0.809116D+02 1.00
QES, QES_reference: 0.809116D+02 0.809116D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12017010640649887
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.12027516903760997
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.3502953760817980E-005 OLP: -2.3502953760823106E-005
COEFFICIENT SINGLE POLE:
MadFKS: -2.9357284927255411E-005 OLP: -2.9357284933900656E-005
FINITE:
OLP: 3.3141639211352347E-003
BORN: 8.5677899553812858E-002
MOMENTA (Exyzm):
1 80.923247471500900 0.0000000000000000 0.0000000000000000 80.923247471500900 0.0000000000000000
2 80.923247471500900 -0.0000000000000000 -0.0000000000000000 -80.923247471500900 0.0000000000000000
3 80.923247471500900 -1.6787602479826522 -1.6262565876710839 -8.7116860523453141 80.418999999999997
4 80.923247471500900 1.6787602479826522 1.6262565876710839 8.7116860523453141 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.3502953760817980E-005 OLP: -2.3502953760823106E-005
COEFFICIENT SINGLE POLE:
MadFKS: -2.9357284927255438E-005 OLP: -2.9357284933900656E-005
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6598E+01 +/- 0.3199E-01 ( 0.485 %)
Integral = 0.6492E+01 +/- 0.3243E-01 ( 0.500 %)
Virtual = -.2582E-02 +/- 0.1071E-01 ( 414.710 %)
Virtual ratio = -.7763E-01 +/- 0.3241E-02 ( 4.175 %)
ABS virtual = 0.1322E+00 +/- 0.1069E-01 ( 8.088 %)
Born = 0.4303E-01 +/- 0.2859E-02 ( 6.644 %)
V 2 = -.2582E-02 +/- 0.1071E-01 ( 414.710 %)
B 2 = 0.4303E-01 +/- 0.2859E-02 ( 6.644 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6598E+01 +/- 0.3199E-01 ( 0.485 %)
accumulated results Integral = 0.6492E+01 +/- 0.3243E-01 ( 0.500 %)
accumulated results Virtual = -.2582E-02 +/- 0.1071E-01 ( 414.710 %)
accumulated results Virtual ratio = -.7763E-01 +/- 0.3241E-02 ( 4.175 %)
accumulated results ABS virtual = 0.1322E+00 +/- 0.1069E-01 ( 8.088 %)
accumulated results Born = 0.4303E-01 +/- 0.2859E-02 ( 6.644 %)
accumulated results V 2 = -.2582E-02 +/- 0.1071E-01 ( 414.710 %)
accumulated results B 2 = 0.4303E-01 +/- 0.2859E-02 ( 6.644 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 F 208 256 0.3076E-01 0.3060E-01 0.5000E-02
channel 2 : 1 T 258 256 0.3615E-01 0.3615E-01 0.5000E-02
channel 3 : 2 T 6147 1705 0.7882E+00 0.7771E+00 0.5000E-02
channel 4 : 2 T 5919 1521 0.8030E+00 0.7868E+00 0.6047E-02
channel 5 : 3 T 18210 4833 0.2474E+01 0.2437E+01 0.5000E-02
channel 6 : 3 T 18411 4913 0.2467E+01 0.2425E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5984889677163627 +/- 3.1989415879867665E-002
Final result: 6.4918934198818761 +/- 3.2430105388922902E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 307
Stability unknown: 0
Stable PS point: 307
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 307
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 307
counters for the granny resonances
ntot 0
Time spent in Born : 0.265514582
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.24285650
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.71568394
Time spent in Integrated_CT : 1.32044840
Time spent in Virtuals : 6.04482698
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.18037987
Time spent in N1body_prefactor : 5.24303317E-02
Time spent in Adding_alphas_pdf : 0.999746740
Time spent in Reweight_scale : 4.32770729
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.38369131
Time spent in Applying_cuts : 0.292135954
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.93195486
Time spent in Other_tasks : 2.36573410
Time spent in Total : 37.1231117
Time in seconds: 68
LOG file for integration channel /P0_ddx_wpwm/all_G1_12, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
15045
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 2.0216881405716422E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 12
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.6590E+00 0.0000E+00 0.1120E-01
channel 2 : 1 F 0 256 0.7967E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1705 0.2006E+02 0.0000E+00 0.6753E-02
channel 4 : 2 F 0 1521 0.1906E+02 0.0000E+00 0.8928E-02
channel 5 : 3 F 0 4833 0.5940E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4913 0.5985E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 2 , 37884
with seed 52
Ranmar initialization seeds 5028 17232
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.814232D+02 0.814232D+02 1.00
muF1, muF1_reference: 0.814232D+02 0.814232D+02 1.00
muF2, muF2_reference: 0.814232D+02 0.814232D+02 1.00
QES, QES_reference: 0.814232D+02 0.814232D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12005382114275898
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
REAL 2: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.11894330803196813
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.1365887274651169E-005 OLP: -1.1365887274651167E-005
COEFFICIENT SINGLE POLE:
MadFKS: 2.6981021158233590E-005 OLP: 2.6981021158295864E-005
FINITE:
OLP: -1.3247192716544262E-003
BORN: 4.1433317623292248E-002
MOMENTA (Exyzm):
1 86.679978410426344 0.0000000000000000 0.0000000000000000 86.679978410426344 0.0000000000000000
2 86.679978410426344 -0.0000000000000000 -0.0000000000000000 -86.679978410426344 0.0000000000000000
3 86.679978410426344 0.65561407677189731 -31.929240297488413 5.1280484045646579 80.418999999999997
4 86.679978410426344 -0.65561407677189731 31.929240297488413 -5.1280484045646579 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.1365887274651169E-005 OLP: -1.1365887274651167E-005
COEFFICIENT SINGLE POLE:
MadFKS: 2.6981021158233617E-005 OLP: 2.6981021158295864E-005
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6528E+01 +/- 0.3014E-01 ( 0.462 %)
Integral = 0.6442E+01 +/- 0.3052E-01 ( 0.474 %)
Virtual = 0.7115E-02 +/- 0.9173E-02 ( 128.924 %)
Virtual ratio = -.7244E-01 +/- 0.2392E-02 ( 3.302 %)
ABS virtual = 0.1138E+00 +/- 0.9159E-02 ( 8.049 %)
Born = 0.4370E-01 +/- 0.2971E-02 ( 6.799 %)
V 2 = 0.7115E-02 +/- 0.9173E-02 ( 128.924 %)
B 2 = 0.4370E-01 +/- 0.2971E-02 ( 6.799 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6528E+01 +/- 0.3014E-01 ( 0.462 %)
accumulated results Integral = 0.6442E+01 +/- 0.3052E-01 ( 0.474 %)
accumulated results Virtual = 0.7115E-02 +/- 0.9173E-02 ( 128.924 %)
accumulated results Virtual ratio = -.7244E-01 +/- 0.2392E-02 ( 3.302 %)
accumulated results ABS virtual = 0.1138E+00 +/- 0.9159E-02 ( 8.049 %)
accumulated results Born = 0.4370E-01 +/- 0.2971E-02 ( 6.799 %)
accumulated results V 2 = 0.7115E-02 +/- 0.9173E-02 ( 128.924 %)
accumulated results B 2 = 0.4370E-01 +/- 0.2971E-02 ( 6.799 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 F 205 256 0.3621E-01 0.3621E-01 0.5000E-02
channel 2 : 1 T 240 256 0.3250E-01 0.3247E-01 0.5000E-02
channel 3 : 2 T 6214 1705 0.7982E+00 0.7898E+00 0.5000E-02
channel 4 : 2 T 5751 1521 0.7729E+00 0.7659E+00 0.5000E-02
channel 5 : 3 T 18192 4833 0.2419E+01 0.2378E+01 0.5000E-02
channel 6 : 3 T 18549 4913 0.2470E+01 0.2439E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5283990005485037 +/- 3.0141216544907253E-002
Final result: 6.4416932795336495 +/- 3.0518397696297227E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 300
Stability unknown: 0
Stable PS point: 300
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 300
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 300
counters for the granny resonances
ntot 0
Time spent in Born : 0.266504467
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.21677685
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.71478987
Time spent in Integrated_CT : 1.31438732
Time spent in Virtuals : 5.89046192
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.18061304
Time spent in N1body_prefactor : 5.19835055E-02
Time spent in Adding_alphas_pdf : 1.00139701
Time spent in Reweight_scale : 4.31526852
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.39085639
Time spent in Applying_cuts : 0.293065906
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.89184999
Time spent in Other_tasks : 2.40078354
Time spent in Total : 36.9287338
Time in seconds: 68
LOG file for integration channel /P0_ddx_wpwm/all_G1_13, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
15046
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 2.0216881405716422E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 13
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.6590E+00 0.0000E+00 0.1120E-01
channel 2 : 1 F 0 256 0.7967E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1705 0.2006E+02 0.0000E+00 0.6753E-02
channel 4 : 2 F 0 1521 0.1906E+02 0.0000E+00 0.8928E-02
channel 5 : 3 F 0 4833 0.5940E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4913 0.5985E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 2 , 41041
with seed 52
Ranmar initialization seeds 5028 20389
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.811307D+02 0.811307D+02 1.00
muF1, muF1_reference: 0.811307D+02 0.811307D+02 1.00
muF2, muF2_reference: 0.811307D+02 0.811307D+02 1.00
QES, QES_reference: 0.811307D+02 0.811307D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12012018761788570
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.12008663550401094
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -4.5227834197797251E-005 OLP: -4.5227834197797420E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.2155148443216671E-004 OLP: -1.2155148443183297E-004
FINITE:
OLP: -8.0276784508580314E-003
BORN: 0.16487399306786157
MOMENTA (Exyzm):
1 88.151075006893777 0.0000000000000000 0.0000000000000000 88.151075006893777 0.0000000000000000
2 88.151075006893777 -0.0000000000000000 -0.0000000000000000 -88.151075006893777 0.0000000000000000
3 88.151075006893777 -3.0614753950387388 -11.384019987317979 -34.123714938513523 80.418999999999997
4 88.151075006893777 3.0614753950387388 11.384019987317979 34.123714938513523 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -4.5227834197797251E-005 OLP: -4.5227834197797420E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.2155148443216671E-004 OLP: -1.2155148443183297E-004
ABS integral = 0.6580E+01 +/- 0.3018E-01 ( 0.459 %)
Integral = 0.6470E+01 +/- 0.3066E-01 ( 0.474 %)
Virtual = 0.3559E-02 +/- 0.1251E-01 ( 351.532 %)
Virtual ratio = -.8220E-01 +/- 0.4311E-02 ( 5.244 %)
ABS virtual = 0.1351E+00 +/- 0.1250E-01 ( 9.249 %)
Born = 0.3649E-01 +/- 0.2705E-02 ( 7.413 %)
V 2 = 0.3559E-02 +/- 0.1251E-01 ( 351.532 %)
B 2 = 0.3649E-01 +/- 0.2705E-02 ( 7.413 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6580E+01 +/- 0.3018E-01 ( 0.459 %)
accumulated results Integral = 0.6470E+01 +/- 0.3066E-01 ( 0.474 %)
accumulated results Virtual = 0.3559E-02 +/- 0.1251E-01 ( 351.532 %)
accumulated results Virtual ratio = -.8220E-01 +/- 0.4311E-02 ( 5.244 %)
accumulated results ABS virtual = 0.1351E+00 +/- 0.1250E-01 ( 9.249 %)
accumulated results Born = 0.3649E-01 +/- 0.2705E-02 ( 7.413 %)
accumulated results V 2 = 0.3559E-02 +/- 0.1251E-01 ( 351.532 %)
accumulated results B 2 = 0.3649E-01 +/- 0.2705E-02 ( 7.413 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 243 256 0.3432E-01 0.3430E-01 0.5000E-02
channel 2 : 1 T 242 256 0.3242E-01 0.3062E-01 0.5000E-02
channel 3 : 2 T 6061 1705 0.7967E+00 0.7735E+00 0.5560E-02
channel 4 : 2 T 5988 1521 0.8070E+00 0.7996E+00 0.5000E-02
channel 5 : 3 T 18204 4833 0.2429E+01 0.2396E+01 0.5000E-02
channel 6 : 3 T 18415 4913 0.2480E+01 0.2436E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5796448347065635 +/- 3.0184752252213360E-002
Final result: 6.4704622865226566 +/- 3.0661177291358175E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 266
Stability unknown: 0
Stable PS point: 266
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 266
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 266
counters for the granny resonances
ntot 0
Time spent in Born : 0.270799249
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.26522589
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.73634076
Time spent in Integrated_CT : 1.32439947
Time spent in Virtuals : 5.25252390
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.20331573
Time spent in N1body_prefactor : 5.63234091E-02
Time spent in Adding_alphas_pdf : 1.01059699
Time spent in Reweight_scale : 4.36456442
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.43970490
Time spent in Applying_cuts : 0.298245549
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.96278048
Time spent in Other_tasks : 2.40886307
Time spent in Total : 36.5936852
Time in seconds: 68
LOG file for integration channel /P0_ddx_wpwm/all_G1_14, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
15026
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 2.0216881405716422E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 14
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.6590E+00 0.0000E+00 0.1120E-01
channel 2 : 1 F 0 256 0.7967E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1705 0.2006E+02 0.0000E+00 0.6753E-02
channel 4 : 2 F 0 1521 0.1906E+02 0.0000E+00 0.8928E-02
channel 5 : 3 F 0 4833 0.5940E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4913 0.5985E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 2 , 44198
with seed 52
Ranmar initialization seeds 5028 23546
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.809988D+02 0.809988D+02 1.00
muF1, muF1_reference: 0.809988D+02 0.809988D+02 1.00
muF2, muF2_reference: 0.809988D+02 0.809988D+02 1.00
QES, QES_reference: 0.809988D+02 0.809988D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12015022884218612
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11994454835487331
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -5.7152396404412168E-005 OLP: -5.7152396404413178E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.5116148879736410E-004 OLP: -1.5116148879732561E-004
FINITE:
OLP: -1.1430262830892395E-002
BORN: 0.20834390980082920
MOMENTA (Exyzm):
1 93.909979784726985 0.0000000000000000 0.0000000000000000 93.909979784726985 0.0000000000000000
2 93.909979784726985 -0.0000000000000000 -0.0000000000000000 -93.909979784726985 0.0000000000000000
3 93.909979784726985 -15.011272488787077 -4.0430001845133701 -45.936745530601534 80.418999999999997
4 93.909979784726985 15.011272488787077 4.0430001845133701 45.936745530601534 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -5.7152396404412168E-005 OLP: -5.7152396404413178E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.5116148879736405E-004 OLP: -1.5116148879732561E-004
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6560E+01 +/- 0.2979E-01 ( 0.454 %)
Integral = 0.6471E+01 +/- 0.3018E-01 ( 0.466 %)
Virtual = 0.5072E-02 +/- 0.1011E-01 ( 199.374 %)
Virtual ratio = -.7563E-01 +/- 0.3087E-02 ( 4.082 %)
ABS virtual = 0.1179E+00 +/- 0.1010E-01 ( 8.564 %)
Born = 0.4258E-01 +/- 0.3199E-02 ( 7.512 %)
V 2 = 0.5072E-02 +/- 0.1011E-01 ( 199.374 %)
B 2 = 0.4258E-01 +/- 0.3199E-02 ( 7.512 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6560E+01 +/- 0.2979E-01 ( 0.454 %)
accumulated results Integral = 0.6471E+01 +/- 0.3018E-01 ( 0.466 %)
accumulated results Virtual = 0.5072E-02 +/- 0.1011E-01 ( 199.374 %)
accumulated results Virtual ratio = -.7563E-01 +/- 0.3087E-02 ( 4.082 %)
accumulated results ABS virtual = 0.1179E+00 +/- 0.1010E-01 ( 8.564 %)
accumulated results Born = 0.4258E-01 +/- 0.3199E-02 ( 7.512 %)
accumulated results V 2 = 0.5072E-02 +/- 0.1011E-01 ( 199.374 %)
accumulated results B 2 = 0.4258E-01 +/- 0.3199E-02 ( 7.512 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 F 180 256 0.3267E-01 0.3035E-01 0.5117E-02
channel 2 : 1 T 271 256 0.3396E-01 0.3395E-01 0.5000E-02
channel 3 : 2 T 6162 1705 0.7821E+00 0.7782E+00 0.5000E-02
channel 4 : 2 T 5849 1521 0.7942E+00 0.7849E+00 0.5065E-02
channel 5 : 3 T 18309 4833 0.2446E+01 0.2403E+01 0.5000E-02
channel 6 : 3 T 18389 4913 0.2471E+01 0.2441E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5600181204575492 +/- 2.9791384782818144E-002
Final result: 6.4713891980859737 +/- 3.0183179425672783E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 282
Stability unknown: 0
Stable PS point: 282
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 282
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 282
counters for the granny resonances
ntot 0
Time spent in Born : 0.156656921
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 3.49874640
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 0.966013193
Time spent in Integrated_CT : 0.723260164
Time spent in Virtuals : 2.96894383
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 2.35503960
Time spent in N1body_prefactor : 3.63969803E-02
Time spent in Adding_alphas_pdf : 0.581523001
Time spent in Reweight_scale : 2.76894021
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 0.776158094
Time spent in Applying_cuts : 0.178962201
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 4.65707397
Time spent in Other_tasks : 1.50443268
Time spent in Total : 21.1721458
Time in seconds: 25
LOG file for integration channel /P0_ddx_wpwm/all_G1_15, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
1160
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 2.0216881405716422E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 15
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.6590E+00 0.0000E+00 0.1120E-01
channel 2 : 1 F 0 256 0.7967E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1705 0.2006E+02 0.0000E+00 0.6753E-02
channel 4 : 2 F 0 1521 0.1906E+02 0.0000E+00 0.8928E-02
channel 5 : 3 F 0 4833 0.5940E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4913 0.5985E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 2 , 47355
with seed 52
Ranmar initialization seeds 5028 26703
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.809950D+02 0.809950D+02 1.00
muF1, muF1_reference: 0.809950D+02 0.809950D+02 1.00
muF2, muF2_reference: 0.809950D+02 0.809950D+02 1.00
QES, QES_reference: 0.809950D+02 0.809950D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12015108641780506
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
REAL 2: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11828718536890616
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.5971166755088267E-005 OLP: -1.5971166755088308E-005
COEFFICIENT SINGLE POLE:
MadFKS: 1.9184726257913778E-005 OLP: 1.9184726257996665E-005
FINITE:
OLP: -2.2507405678118299E-003
BORN: 5.8221448883624224E-002
MOMENTA (Exyzm):
1 90.392105011290184 0.0000000000000000 0.0000000000000000 90.392105011290184 0.0000000000000000
2 90.392105011290184 -0.0000000000000000 -0.0000000000000000 -90.392105011290184 0.0000000000000000
3 90.392105011290184 -39.203807310468562 -7.0376102161781207 -10.818993584474921 80.418999999999997
4 90.392105011290184 39.203807310468562 7.0376102161781207 10.818993584474921 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.5971166755088267E-005 OLP: -1.5971166755088308E-005
COEFFICIENT SINGLE POLE:
MadFKS: 1.9184726257913778E-005 OLP: 1.9184726257996665E-005
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6570E+01 +/- 0.2838E-01 ( 0.432 %)
Integral = 0.6495E+01 +/- 0.2873E-01 ( 0.442 %)
Virtual = 0.2246E-02 +/- 0.9777E-02 ( 435.372 %)
Virtual ratio = -.7313E-01 +/- 0.2407E-02 ( 3.291 %)
ABS virtual = 0.9964E-01 +/- 0.9766E-02 ( 9.801 %)
Born = 0.3785E-01 +/- 0.3359E-02 ( 8.875 %)
V 2 = 0.2246E-02 +/- 0.9777E-02 ( 435.372 %)
B 2 = 0.3785E-01 +/- 0.3359E-02 ( 8.875 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6570E+01 +/- 0.2838E-01 ( 0.432 %)
accumulated results Integral = 0.6495E+01 +/- 0.2873E-01 ( 0.442 %)
accumulated results Virtual = 0.2246E-02 +/- 0.9777E-02 ( 435.372 %)
accumulated results Virtual ratio = -.7313E-01 +/- 0.2407E-02 ( 3.291 %)
accumulated results ABS virtual = 0.9964E-01 +/- 0.9766E-02 ( 9.801 %)
accumulated results Born = 0.3785E-01 +/- 0.3359E-02 ( 8.875 %)
accumulated results V 2 = 0.2246E-02 +/- 0.9777E-02 ( 435.372 %)
accumulated results B 2 = 0.3785E-01 +/- 0.3359E-02 ( 8.875 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 F 184 256 0.2722E-01 0.2722E-01 0.5000E-02
channel 2 : 1 T 265 256 0.3519E-01 0.3515E-01 0.5000E-02
channel 3 : 2 T 6112 1705 0.7872E+00 0.7771E+00 0.5000E-02
channel 4 : 2 T 5790 1521 0.7863E+00 0.7772E+00 0.5949E-02
channel 5 : 3 T 18437 4833 0.2472E+01 0.2437E+01 0.5000E-02
channel 6 : 3 T 18362 4913 0.2462E+01 0.2442E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5696266943435058 +/- 2.8382155057860157E-002
Final result: 6.4954936464924602 +/- 2.8727200911910587E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 240
Stability unknown: 0
Stable PS point: 240
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 240
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 240
counters for the granny resonances
ntot 0
Time spent in Born : 0.221454740
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.12015343
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.32168221
Time spent in Integrated_CT : 1.05264521
Time spent in Virtuals : 3.96881199
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.23159647
Time spent in N1body_prefactor : 4.54525054E-02
Time spent in Adding_alphas_pdf : 0.808463693
Time spent in Reweight_scale : 3.49867177
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.12988925
Time spent in Applying_cuts : 0.242520735
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.24529362
Time spent in Other_tasks : 2.18185425
Time spent in Total : 29.0684891
Time in seconds: 33
LOG file for integration channel /P0_ddx_wpwm/all_G1_16, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
1165
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 2.0216881405716422E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 16
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.6590E+00 0.0000E+00 0.1120E-01
channel 2 : 1 F 0 256 0.7967E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1705 0.2006E+02 0.0000E+00 0.6753E-02
channel 4 : 2 F 0 1521 0.1906E+02 0.0000E+00 0.8928E-02
channel 5 : 3 F 0 4833 0.5940E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4913 0.5985E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 2 , 50512
with seed 52
Ranmar initialization seeds 5028 29860
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.812290D+02 0.812290D+02 1.00
muF1, muF1_reference: 0.812290D+02 0.812290D+02 1.00
muF2, muF2_reference: 0.812290D+02 0.812290D+02 1.00
QES, QES_reference: 0.812290D+02 0.812290D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12009786646834700
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.12027956693814187
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -3.1863668636117099E-005 OLP: -3.1863668636106968E-005
COEFFICIENT SINGLE POLE:
MadFKS: -6.9953492435864044E-005 OLP: -6.9953492432069336E-005
FINITE:
OLP: -2.4803080491679810E-003
BORN: 0.11615613205913079
MOMENTA (Exyzm):
1 82.584447739470988 0.0000000000000000 0.0000000000000000 82.584447739470988 0.0000000000000000
2 82.584447739470988 -0.0000000000000000 -0.0000000000000000 -82.584447739470988 0.0000000000000000
3 82.584447739470988 -1.4935348625019673 -0.39418600673379273 -18.724033177710467 80.418999999999997
4 82.584447739470988 1.4935348625019673 0.39418600673379273 18.724033177710467 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -3.1863668636117099E-005 OLP: -3.1863668636106968E-005
COEFFICIENT SINGLE POLE:
MadFKS: -6.9953492435863990E-005 OLP: -6.9953492432069336E-005
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6552E+01 +/- 0.2951E-01 ( 0.450 %)
Integral = 0.6478E+01 +/- 0.2984E-01 ( 0.461 %)
Virtual = 0.1362E-01 +/- 0.1006E-01 ( 73.843 %)
Virtual ratio = -.7548E-01 +/- 0.4864E-02 ( 6.444 %)
ABS virtual = 0.1046E+00 +/- 0.1005E-01 ( 9.603 %)
Born = 0.3637E-01 +/- 0.3270E-02 ( 8.990 %)
V 2 = 0.1362E-01 +/- 0.1006E-01 ( 73.843 %)
B 2 = 0.3637E-01 +/- 0.3270E-02 ( 8.990 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6552E+01 +/- 0.2951E-01 ( 0.450 %)
accumulated results Integral = 0.6478E+01 +/- 0.2984E-01 ( 0.461 %)
accumulated results Virtual = 0.1362E-01 +/- 0.1006E-01 ( 73.843 %)
accumulated results Virtual ratio = -.7548E-01 +/- 0.4864E-02 ( 6.444 %)
accumulated results ABS virtual = 0.1046E+00 +/- 0.1005E-01 ( 9.603 %)
accumulated results Born = 0.3637E-01 +/- 0.3270E-02 ( 8.990 %)
accumulated results V 2 = 0.1362E-01 +/- 0.1006E-01 ( 73.843 %)
accumulated results B 2 = 0.3637E-01 +/- 0.3270E-02 ( 8.990 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 F 195 256 0.3661E-01 0.3393E-01 0.9421E-02
channel 2 : 1 T 245 256 0.3160E-01 0.3159E-01 0.5000E-02
channel 3 : 2 T 6072 1705 0.7752E+00 0.7540E+00 0.5159E-02
channel 4 : 2 T 5731 1521 0.7651E+00 0.7617E+00 0.5000E-02
channel 5 : 3 T 18383 4833 0.2455E+01 0.2433E+01 0.5000E-02
channel 6 : 3 T 18529 4913 0.2489E+01 0.2464E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5521925749967975 +/- 2.9511862057655158E-002
Final result: 6.4780197561743575 +/- 2.9843143973644706E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 245
Stability unknown: 0
Stable PS point: 245
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 245
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 245
counters for the granny resonances
ntot 0
Time spent in Born : 0.229499876
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.35730314
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.42369246
Time spent in Integrated_CT : 1.13160181
Time spent in Virtuals : 4.35626316
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.45130920
Time spent in N1body_prefactor : 4.56543863E-02
Time spent in Adding_alphas_pdf : 0.838026881
Time spent in Reweight_scale : 3.64925218
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.20327497
Time spent in Applying_cuts : 0.249728173
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.40654373
Time spent in Other_tasks : 2.12605476
Time spent in Total : 30.4682026
Time in seconds: 40
LOG file for integration channel /P0_ddx_wpwm/all_G1_17, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
1161
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 2.0216881405716422E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 17
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.6590E+00 0.0000E+00 0.1120E-01
channel 2 : 1 F 0 256 0.7967E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1705 0.2006E+02 0.0000E+00 0.6753E-02
channel 4 : 2 F 0 1521 0.1906E+02 0.0000E+00 0.8928E-02
channel 5 : 3 F 0 4833 0.5940E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4913 0.5985E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 2 , 53669
with seed 52
Ranmar initialization seeds 5028 2936
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.804348D+02 0.804348D+02 1.00
muF1, muF1_reference: 0.804348D+02 0.804348D+02 1.00
muF2, muF2_reference: 0.804348D+02 0.804348D+02 1.00
QES, QES_reference: 0.804348D+02 0.804348D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12027935198302704
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11804092771821764
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.2120230081683988E-005 OLP: -1.2120230081684015E-005
COEFFICIENT SINGLE POLE:
MadFKS: 2.9880423568814251E-005 OLP: 2.9880423568794770E-005
FINITE:
OLP: -1.4474141295300461E-003
BORN: 4.4183206335486606E-002
MOMENTA (Exyzm):
1 91.022604994665116 0.0000000000000000 0.0000000000000000 91.022604994665116 0.0000000000000000
2 91.022604994665116 -0.0000000000000000 -0.0000000000000000 -91.022604994665116 0.0000000000000000
3 91.022604994665116 -5.6015812117366179 -42.195424405429790 -2.4632308435902388 80.418999999999997
4 91.022604994665116 5.6015812117366179 42.195424405429790 2.4632308435902388 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.2120230081683988E-005 OLP: -1.2120230081684015E-005
COEFFICIENT SINGLE POLE:
MadFKS: 2.9880423568814278E-005 OLP: 2.9880423568794770E-005
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6497E+01 +/- 0.2821E-01 ( 0.434 %)
Integral = 0.6421E+01 +/- 0.2857E-01 ( 0.445 %)
Virtual = 0.1088E-01 +/- 0.9629E-02 ( 88.509 %)
Virtual ratio = -.8278E-01 +/- 0.5465E-02 ( 6.601 %)
ABS virtual = 0.1139E+00 +/- 0.9616E-02 ( 8.445 %)
Born = 0.4306E-01 +/- 0.2909E-02 ( 6.755 %)
V 2 = 0.1088E-01 +/- 0.9629E-02 ( 88.509 %)
B 2 = 0.4306E-01 +/- 0.2909E-02 ( 6.755 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6497E+01 +/- 0.2821E-01 ( 0.434 %)
accumulated results Integral = 0.6421E+01 +/- 0.2857E-01 ( 0.445 %)
accumulated results Virtual = 0.1088E-01 +/- 0.9629E-02 ( 88.509 %)
accumulated results Virtual ratio = -.8278E-01 +/- 0.5465E-02 ( 6.601 %)
accumulated results ABS virtual = 0.1139E+00 +/- 0.9616E-02 ( 8.445 %)
accumulated results Born = 0.4306E-01 +/- 0.2909E-02 ( 6.755 %)
accumulated results V 2 = 0.1088E-01 +/- 0.9629E-02 ( 88.509 %)
accumulated results B 2 = 0.4306E-01 +/- 0.2909E-02 ( 6.755 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 F 202 256 0.3835E-01 0.3833E-01 0.5000E-02
channel 2 : 1 F 215 256 0.2822E-01 0.2821E-01 0.5000E-02
channel 3 : 2 T 6136 1705 0.7861E+00 0.7767E+00 0.5000E-02
channel 4 : 2 T 5865 1521 0.7773E+00 0.7705E+00 0.5000E-02
channel 5 : 3 T 18182 4833 0.2416E+01 0.2400E+01 0.5000E-02
channel 6 : 3 T 18547 4913 0.2451E+01 0.2407E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.4974890702255435 +/- 2.8211772400970291E-002
Final result: 6.4205423881842947 +/- 2.8567937917217279E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 293
Stability unknown: 0
Stable PS point: 293
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 293
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 293
counters for the granny resonances
ntot 0
Time spent in Born : 0.226453766
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.29544115
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.40504766
Time spent in Integrated_CT : 1.11891365
Time spent in Virtuals : 5.21068096
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.41306424
Time spent in N1body_prefactor : 4.58056033E-02
Time spent in Adding_alphas_pdf : 0.824767232
Time spent in Reweight_scale : 3.59843349
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.18966901
Time spent in Applying_cuts : 0.250898302
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.32361221
Time spent in Other_tasks : 2.09059525
Time spent in Total : 30.9933815
Time in seconds: 45
LOG file for integration channel /P0_ddx_wpwm/all_G1_18, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
1163
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 2.0216881405716422E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 18
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.6590E+00 0.0000E+00 0.1120E-01
channel 2 : 1 F 0 256 0.7967E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1705 0.2006E+02 0.0000E+00 0.6753E-02
channel 4 : 2 F 0 1521 0.1906E+02 0.0000E+00 0.8928E-02
channel 5 : 3 F 0 4833 0.5940E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4913 0.5985E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 2 , 56826
with seed 52
Ranmar initialization seeds 5028 6093
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.809858D+02 0.809858D+02 1.00
muF1, muF1_reference: 0.809858D+02 0.809858D+02 1.00
muF2, muF2_reference: 0.809858D+02 0.809858D+02 1.00
QES, QES_reference: 0.809858D+02 0.809858D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12015317669082606
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 2: keeping split order 1
REAL 1: keeping split order 1
REAL 3: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12019275998019091
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -8.7189416982955145E-006 OLP: -8.7189416982954840E-006
COEFFICIENT SINGLE POLE:
MadFKS: 2.9716386532498051E-005 OLP: 2.9716386541981093E-005
FINITE:
OLP: -2.8975724172684066E-004
BORN: 3.1784116100652821E-002
MOMENTA (Exyzm):
1 82.925431279934088 0.0000000000000000 0.0000000000000000 82.925431279934088 0.0000000000000000
2 82.925431279934088 -0.0000000000000000 -0.0000000000000000 -82.925431279934088 0.0000000000000000
3 82.925431279934088 -5.6426453282654574 -5.6207662245521623 18.600514313088492 80.418999999999997
4 82.925431279934088 5.6426453282654574 5.6207662245521623 -18.600514313088492 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -8.7189416982955145E-006 OLP: -8.7189416982954840E-006
COEFFICIENT SINGLE POLE:
MadFKS: 2.9716386532498051E-005 OLP: 2.9716386541981093E-005
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6577E+01 +/- 0.3100E-01 ( 0.471 %)
Integral = 0.6470E+01 +/- 0.3145E-01 ( 0.486 %)
Virtual = -.5064E-02 +/- 0.1034E-01 ( 204.126 %)
Virtual ratio = -.8456E-01 +/- 0.4512E-02 ( 5.335 %)
ABS virtual = 0.1262E+00 +/- 0.1032E-01 ( 8.177 %)
Born = 0.3990E-01 +/- 0.2821E-02 ( 7.071 %)
V 2 = -.5064E-02 +/- 0.1034E-01 ( 204.126 %)
B 2 = 0.3990E-01 +/- 0.2821E-02 ( 7.071 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6577E+01 +/- 0.3100E-01 ( 0.471 %)
accumulated results Integral = 0.6470E+01 +/- 0.3145E-01 ( 0.486 %)
accumulated results Virtual = -.5064E-02 +/- 0.1034E-01 ( 204.126 %)
accumulated results Virtual ratio = -.8456E-01 +/- 0.4512E-02 ( 5.335 %)
accumulated results ABS virtual = 0.1262E+00 +/- 0.1032E-01 ( 8.177 %)
accumulated results Born = 0.3990E-01 +/- 0.2821E-02 ( 7.071 %)
accumulated results V 2 = -.5064E-02 +/- 0.1034E-01 ( 204.126 %)
accumulated results B 2 = 0.3990E-01 +/- 0.2821E-02 ( 7.071 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 F 207 256 0.3225E-01 0.3225E-01 0.5000E-02
channel 2 : 1 T 254 256 0.4233E-01 0.4228E-01 0.5000E-02
channel 3 : 2 T 6056 1705 0.7671E+00 0.7559E+00 0.5000E-02
channel 4 : 2 T 6025 1521 0.8236E+00 0.8072E+00 0.6950E-02
channel 5 : 3 T 18372 4833 0.2449E+01 0.2414E+01 0.5000E-02
channel 6 : 3 T 18242 4913 0.2463E+01 0.2418E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5774090223127004 +/- 3.0995077298084390E-002
Final result: 6.4696605301204428 +/- 3.1453075097419327E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 293
Stability unknown: 0
Stable PS point: 293
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 293
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 293
counters for the granny resonances
ntot 0
Time spent in Born : 0.224131882
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.28298950
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.36804175
Time spent in Integrated_CT : 1.10884953
Time spent in Virtuals : 5.17289639
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.33964062
Time spent in N1body_prefactor : 4.54776585E-02
Time spent in Adding_alphas_pdf : 0.831395805
Time spent in Reweight_scale : 3.60235000
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.21408653
Time spent in Applying_cuts : 0.251830816
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.32454157
Time spent in Other_tasks : 2.13754654
Time spent in Total : 30.9037781
Time in seconds: 43
LOG file for integration channel /P0_ddx_wpwm/all_G1_19, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
1162
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 2.0216881405716422E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 19
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.6590E+00 0.0000E+00 0.1120E-01
channel 2 : 1 F 0 256 0.7967E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1705 0.2006E+02 0.0000E+00 0.6753E-02
channel 4 : 2 F 0 1521 0.1906E+02 0.0000E+00 0.8928E-02
channel 5 : 3 F 0 4833 0.5940E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4913 0.5985E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 2 , 59983
with seed 52
Ranmar initialization seeds 5028 9250
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.804661D+02 0.804661D+02 1.00
muF1, muF1_reference: 0.804661D+02 0.804661D+02 1.00
muF2, muF2_reference: 0.804661D+02 0.804661D+02 1.00
QES, QES_reference: 0.804661D+02 0.804661D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12027215342449210
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
REAL 3: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11929380692458118
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.7436871138845163E-005 OLP: -1.7436871138845125E-005
COEFFICIENT SINGLE POLE:
MadFKS: 5.6811940675799335E-006 OLP: 5.6811940673503147E-006
FINITE:
OLP: -2.0291123536249592E-003
BORN: 6.3564542106930466E-002
MOMENTA (Exyzm):
1 85.119785982316998 0.0000000000000000 0.0000000000000000 85.119785982316998 0.0000000000000000
2 85.119785982316998 -0.0000000000000000 -0.0000000000000000 -85.119785982316998 0.0000000000000000
3 85.119785982316998 -5.5583348458329205 -26.558230080731221 -6.4751628084545576 80.418999999999997
4 85.119785982316998 5.5583348458329205 26.558230080731221 6.4751628084545576 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.7436871138845163E-005 OLP: -1.7436871138845125E-005
COEFFICIENT SINGLE POLE:
MadFKS: 5.6811940675799606E-006 OLP: 5.6811940673503147E-006
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6546E+01 +/- 0.2790E-01 ( 0.426 %)
Integral = 0.6462E+01 +/- 0.2830E-01 ( 0.438 %)
Virtual = 0.1262E-01 +/- 0.1156E-01 ( 91.583 %)
Virtual ratio = -.8044E-01 +/- 0.3748E-02 ( 4.660 %)
ABS virtual = 0.1157E+00 +/- 0.1154E-01 ( 9.977 %)
Born = 0.4100E-01 +/- 0.4509E-02 ( 10.998 %)
V 2 = 0.1262E-01 +/- 0.1156E-01 ( 91.583 %)
B 2 = 0.4100E-01 +/- 0.4509E-02 ( 10.998 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6546E+01 +/- 0.2790E-01 ( 0.426 %)
accumulated results Integral = 0.6462E+01 +/- 0.2830E-01 ( 0.438 %)
accumulated results Virtual = 0.1262E-01 +/- 0.1156E-01 ( 91.583 %)
accumulated results Virtual ratio = -.8044E-01 +/- 0.3748E-02 ( 4.660 %)
accumulated results ABS virtual = 0.1157E+00 +/- 0.1154E-01 ( 9.977 %)
accumulated results Born = 0.4100E-01 +/- 0.4509E-02 ( 10.998 %)
accumulated results V 2 = 0.1262E-01 +/- 0.1156E-01 ( 91.583 %)
accumulated results B 2 = 0.4100E-01 +/- 0.4509E-02 ( 10.998 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 F 210 256 0.3619E-01 0.3617E-01 0.5000E-02
channel 2 : 1 T 241 256 0.3446E-01 0.3446E-01 0.5000E-02
channel 3 : 2 T 6133 1705 0.7948E+00 0.7841E+00 0.5000E-02
channel 4 : 2 T 5866 1521 0.7970E+00 0.7766E+00 0.6968E-02
channel 5 : 3 T 18207 4833 0.2440E+01 0.2412E+01 0.5000E-02
channel 6 : 3 T 18493 4913 0.2443E+01 0.2419E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5458298935217654 +/- 2.7903006941200830E-002
Final result: 6.4622227115691437 +/- 2.8296720585769389E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 254
Stability unknown: 0
Stable PS point: 254
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 254
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 254
counters for the granny resonances
ntot 0
Time spent in Born : 0.229355946
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.31305599
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.42784786
Time spent in Integrated_CT : 1.13405323
Time spent in Virtuals : 4.45564556
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.45393896
Time spent in N1body_prefactor : 4.71071303E-02
Time spent in Adding_alphas_pdf : 0.835111499
Time spent in Reweight_scale : 3.63098097
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.18044436
Time spent in Applying_cuts : 0.250728607
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.41649532
Time spent in Other_tasks : 2.13857079
Time spent in Total : 30.5133381
Time in seconds: 41
LOG file for integration channel /P0_ddx_wpwm/all_G1_20, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
979
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 2.0216881405716422E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 20
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.6590E+00 0.0000E+00 0.1120E-01
channel 2 : 1 F 0 256 0.7967E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1705 0.2006E+02 0.0000E+00 0.6753E-02
channel 4 : 2 F 0 1521 0.1906E+02 0.0000E+00 0.8928E-02
channel 5 : 3 F 0 4833 0.5940E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4913 0.5985E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 2 , 63140
with seed 52
Ranmar initialization seeds 5028 12407
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.813660D+02 0.813660D+02 1.00
muF1, muF1_reference: 0.813660D+02 0.813660D+02 1.00
muF2, muF2_reference: 0.813660D+02 0.813660D+02 1.00
QES, QES_reference: 0.813660D+02 0.813660D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12006678171361282
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.11642180467514873
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -9.0800651959650760E-006 OLP: -9.0800651959649608E-006
COEFFICIENT SINGLE POLE:
MadFKS: 4.2525756880399437E-005 OLP: 4.2525756880387741E-005
FINITE:
OLP: -1.7182822548419616E-003
BORN: 3.3100559262424056E-002
MOMENTA (Exyzm):
1 99.792323267207479 0.0000000000000000 0.0000000000000000 99.792323267207479 0.0000000000000000
2 99.792323267207479 -0.0000000000000000 -0.0000000000000000 -99.792323267207479 0.0000000000000000
3 99.792323267207479 -3.2998590551058395 -58.975693873050204 -1.5068790513992540 80.418999999999997
4 99.792323267207479 3.2998590551058395 58.975693873050204 1.5068790513992540 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -9.0800651959650760E-006 OLP: -9.0800651959649608E-006
COEFFICIENT SINGLE POLE:
MadFKS: 4.2525756880399423E-005 OLP: 4.2525756880387741E-005
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6567E+01 +/- 0.2878E-01 ( 0.438 %)
Integral = 0.6485E+01 +/- 0.2915E-01 ( 0.450 %)
Virtual = -.7038E-03 +/- 0.9484E-02 ( ******* %)
Virtual ratio = -.7776E-01 +/- 0.3606E-02 ( 4.638 %)
ABS virtual = 0.1053E+00 +/- 0.9472E-02 ( 8.992 %)
Born = 0.3998E-01 +/- 0.3059E-02 ( 7.650 %)
V 2 = -.7038E-03 +/- 0.9484E-02 ( ******* %)
B 2 = 0.3998E-01 +/- 0.3059E-02 ( 7.650 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6567E+01 +/- 0.2878E-01 ( 0.438 %)
accumulated results Integral = 0.6485E+01 +/- 0.2915E-01 ( 0.450 %)
accumulated results Virtual = -.7038E-03 +/- 0.9484E-02 ( ******* %)
accumulated results Virtual ratio = -.7776E-01 +/- 0.3606E-02 ( 4.638 %)
accumulated results ABS virtual = 0.1053E+00 +/- 0.9472E-02 ( 8.992 %)
accumulated results Born = 0.3998E-01 +/- 0.3059E-02 ( 7.650 %)
accumulated results V 2 = -.7038E-03 +/- 0.9484E-02 ( ******* %)
accumulated results B 2 = 0.3998E-01 +/- 0.3059E-02 ( 7.650 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 F 208 256 0.4711E-01 0.4710E-01 0.5000E-02
channel 2 : 1 T 255 256 0.4071E-01 0.4069E-01 0.5000E-02
channel 3 : 2 T 6119 1705 0.7885E+00 0.7759E+00 0.5000E-02
channel 4 : 2 T 5923 1521 0.8073E+00 0.7913E+00 0.5702E-02
channel 5 : 3 T 18299 4833 0.2460E+01 0.2430E+01 0.5000E-02
channel 6 : 3 T 18341 4913 0.2423E+01 0.2400E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5668497266901396 +/- 2.8778918108838283E-002
Final result: 6.4851546157163655 +/- 2.9153383169367393E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 262
Stability unknown: 0
Stable PS point: 262
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 262
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 262
counters for the granny resonances
ntot 0
Time spent in Born : 0.247862548
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.66837883
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.51436639
Time spent in Integrated_CT : 1.20932865
Time spent in Virtuals : 4.79820442
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.70307374
Time spent in N1body_prefactor : 5.18446043E-02
Time spent in Adding_alphas_pdf : 0.875513315
Time spent in Reweight_scale : 3.99412942
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.25656092
Time spent in Applying_cuts : 0.281388670
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.78124619
Time spent in Other_tasks : 2.25393867
Time spent in Total : 32.6358376
Time in seconds: 51
LOG file for integration channel /P0_ddx_wpwm/all_G1_21, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
982
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 2.0216881405716422E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 21
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.6590E+00 0.0000E+00 0.1120E-01
channel 2 : 1 F 0 256 0.7967E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1705 0.2006E+02 0.0000E+00 0.6753E-02
channel 4 : 2 F 0 1521 0.1906E+02 0.0000E+00 0.8928E-02
channel 5 : 3 F 0 4833 0.5940E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4913 0.5985E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 2 , 66297
with seed 52
Ranmar initialization seeds 5028 15564
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.961713D+02 0.961713D+02 1.00
muF1, muF1_reference: 0.961713D+02 0.961713D+02 1.00
muF2, muF2_reference: 0.961713D+02 0.961713D+02 1.00
QES, QES_reference: 0.961713D+02 0.961713D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.11706311922049382
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.11744779759607235
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.2036712258146922E-005 OLP: -1.2036712258146917E-005
COEFFICIENT SINGLE POLE:
MadFKS: 3.3876277213350405E-005 OLP: 3.3876277213293403E-005
FINITE:
OLP: -1.7567785437583752E-003
BORN: 4.3878749637456971E-002
MOMENTA (Exyzm):
1 94.287285721109953 0.0000000000000000 0.0000000000000000 94.287285721109953 0.0000000000000000
2 94.287285721109953 -0.0000000000000000 -0.0000000000000000 -94.287285721109953 0.0000000000000000
3 94.287285721109953 -39.947674076025848 -28.096999693405888 -6.1334029541999060 80.418999999999997
4 94.287285721109953 39.947674076025848 28.096999693405888 6.1334029541999060 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.2036712258146922E-005 OLP: -1.2036712258146917E-005
COEFFICIENT SINGLE POLE:
MadFKS: 3.3876277213350432E-005 OLP: 3.3876277213293403E-005
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6584E+01 +/- 0.2823E-01 ( 0.429 %)
Integral = 0.6471E+01 +/- 0.2876E-01 ( 0.444 %)
Virtual = -.8495E-02 +/- 0.1042E-01 ( 122.598 %)
Virtual ratio = -.7883E-01 +/- 0.3235E-02 ( 4.104 %)
ABS virtual = 0.1274E+00 +/- 0.1040E-01 ( 8.160 %)
Born = 0.4240E-01 +/- 0.2987E-02 ( 7.045 %)
V 2 = -.8495E-02 +/- 0.1042E-01 ( 122.598 %)
B 2 = 0.4240E-01 +/- 0.2987E-02 ( 7.045 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6584E+01 +/- 0.2823E-01 ( 0.429 %)
accumulated results Integral = 0.6471E+01 +/- 0.2876E-01 ( 0.444 %)
accumulated results Virtual = -.8495E-02 +/- 0.1042E-01 ( 122.598 %)
accumulated results Virtual ratio = -.7883E-01 +/- 0.3235E-02 ( 4.104 %)
accumulated results ABS virtual = 0.1274E+00 +/- 0.1040E-01 ( 8.160 %)
accumulated results Born = 0.4240E-01 +/- 0.2987E-02 ( 7.045 %)
accumulated results V 2 = -.8495E-02 +/- 0.1042E-01 ( 122.598 %)
accumulated results B 2 = 0.4240E-01 +/- 0.2987E-02 ( 7.045 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 F 192 256 0.3584E-01 0.3584E-01 0.5566E-02
channel 2 : 1 T 253 256 0.3340E-01 0.3259E-01 0.5000E-02
channel 3 : 2 T 6260 1705 0.8092E+00 0.7965E+00 0.5000E-02
channel 4 : 2 T 5806 1521 0.7756E+00 0.7695E+00 0.5000E-02
channel 5 : 3 T 18189 4833 0.2450E+01 0.2400E+01 0.5000E-02
channel 6 : 3 T 18455 4913 0.2480E+01 0.2437E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5839678001924007 +/- 2.8228188802953001E-002
Final result: 6.4709118804546391 +/- 2.8755148145974605E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 297
Stability unknown: 0
Stable PS point: 297
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 297
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 297
counters for the granny resonances
ntot 0
Time spent in Born : 0.246956080
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.59239388
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.50208104
Time spent in Integrated_CT : 1.19711685
Time spent in Virtuals : 5.38521671
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.66311598
Time spent in N1body_prefactor : 5.28360084E-02
Time spent in Adding_alphas_pdf : 0.864811778
Time spent in Reweight_scale : 3.95847416
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.28043556
Time spent in Applying_cuts : 0.284634590
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.71967316
Time spent in Other_tasks : 2.26610184
Time spent in Total : 33.0138474
Time in seconds: 52
LOG file for integration channel /P0_ddx_wpwm/all_G1_22, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
969
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 2.0216881405716422E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 22
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.6590E+00 0.0000E+00 0.1120E-01
channel 2 : 1 F 0 256 0.7967E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1705 0.2006E+02 0.0000E+00 0.6753E-02
channel 4 : 2 F 0 1521 0.1906E+02 0.0000E+00 0.8928E-02
channel 5 : 3 F 0 4833 0.5940E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4913 0.5985E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 2 , 69454
with seed 52
Ranmar initialization seeds 5028 18721
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.806691D+02 0.806691D+02 1.00
muF1, muF1_reference: 0.806691D+02 0.806691D+02 1.00
muF2, muF2_reference: 0.806691D+02 0.806691D+02 1.00
QES, QES_reference: 0.806691D+02 0.806691D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12022556943142529
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12026906178533216
==========================================================================================
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{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -3.9373908593670893E-005 OLP: -3.9373908593655328E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.0466132890658917E-004 OLP: -1.0466132890646144E-004
FINITE:
OLP: -5.6044860768622497E-003
BORN: 0.14353403490728461
MOMENTA (Exyzm):
1 84.761524642979936 0.0000000000000000 0.0000000000000000 84.761524642979936 0.0000000000000000
2 84.761524642979936 -0.0000000000000000 -0.0000000000000000 -84.761524642979936 0.0000000000000000
3 84.761524642979936 -1.1094496335890285E-002 -3.1206507454418597 -26.600035989442190 80.418999999999997
4 84.761524642979936 1.1094496335890285E-002 3.1206507454418597 26.600035989442194 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -3.9373908593670893E-005 OLP: -3.9373908593655328E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.0466132890658928E-004 OLP: -1.0466132890646144E-004
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6531E+01 +/- 0.2669E-01 ( 0.409 %)
Integral = 0.6454E+01 +/- 0.2707E-01 ( 0.419 %)
Virtual = 0.6144E-02 +/- 0.1011E-01 ( 164.570 %)
Virtual ratio = -.7476E-01 +/- 0.2482E-02 ( 3.319 %)
ABS virtual = 0.1094E+00 +/- 0.1010E-01 ( 9.228 %)
Born = 0.4009E-01 +/- 0.3293E-02 ( 8.216 %)
V 2 = 0.6144E-02 +/- 0.1011E-01 ( 164.570 %)
B 2 = 0.4009E-01 +/- 0.3293E-02 ( 8.216 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6531E+01 +/- 0.2669E-01 ( 0.409 %)
accumulated results Integral = 0.6454E+01 +/- 0.2707E-01 ( 0.419 %)
accumulated results Virtual = 0.6144E-02 +/- 0.1011E-01 ( 164.570 %)
accumulated results Virtual ratio = -.7476E-01 +/- 0.2482E-02 ( 3.319 %)
accumulated results ABS virtual = 0.1094E+00 +/- 0.1010E-01 ( 9.228 %)
accumulated results Born = 0.4009E-01 +/- 0.3293E-02 ( 8.216 %)
accumulated results V 2 = 0.6144E-02 +/- 0.1011E-01 ( 164.570 %)
accumulated results B 2 = 0.4009E-01 +/- 0.3293E-02 ( 8.216 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 F 185 256 0.3287E-01 0.3287E-01 0.5000E-02
channel 2 : 1 T 254 256 0.3056E-01 0.3055E-01 0.5000E-02
channel 3 : 2 T 6029 1705 0.7710E+00 0.7622E+00 0.5000E-02
channel 4 : 2 T 5808 1521 0.7840E+00 0.7708E+00 0.5052E-02
channel 5 : 3 T 18425 4833 0.2446E+01 0.2421E+01 0.5000E-02
channel 6 : 3 T 18456 4913 0.2466E+01 0.2437E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5305960032381707 +/- 2.6694876227351290E-002
Final result: 6.4538033264897408 +/- 2.7072174020117575E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 273
Stability unknown: 0
Stable PS point: 273
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 273
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 273
counters for the granny resonances
ntot 0
Time spent in Born : 0.247269124
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.61410522
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.50480604
Time spent in Integrated_CT : 1.20234394
Time spent in Virtuals : 5.00428772
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.67395997
Time spent in N1body_prefactor : 5.18536791E-02
Time spent in Adding_alphas_pdf : 0.874915481
Time spent in Reweight_scale : 3.97712207
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.28558576
Time spent in Applying_cuts : 0.278157443
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.77361870
Time spent in Other_tasks : 2.27777863
Time spent in Total : 32.7658043
Time in seconds: 51
LOG file for integration channel /P0_ddx_wpwm/all_G1_23, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
977
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 2.0216881405716422E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 23
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.6590E+00 0.0000E+00 0.1120E-01
channel 2 : 1 F 0 256 0.7967E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1705 0.2006E+02 0.0000E+00 0.6753E-02
channel 4 : 2 F 0 1521 0.1906E+02 0.0000E+00 0.8928E-02
channel 5 : 3 F 0 4833 0.5940E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4913 0.5985E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 2 , 72611
with seed 52
Ranmar initialization seeds 5028 21878
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.857685D+02 0.857685D+02 1.00
muF1, muF1_reference: 0.857685D+02 0.857685D+02 1.00
muF2, muF2_reference: 0.857685D+02 0.857685D+02 1.00
QES, QES_reference: 0.857685D+02 0.857685D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.11910310577248770
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
REAL 2: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.11854938857586202
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -8.8642620133979947E-006 OLP: -8.8642620133979930E-006
COEFFICIENT SINGLE POLE:
MadFKS: 3.3812980420473628E-005 OLP: 3.3812980420428485E-005
FINITE:
OLP: -1.0493119349850072E-003
BORN: 3.2313868211267763E-002
MOMENTA (Exyzm):
1 89.125541096283825 0.0000000000000000 0.0000000000000000 89.125541096283825 0.0000000000000000
2 89.125541096283825 -0.0000000000000000 -0.0000000000000000 -89.125541096283825 0.0000000000000000
3 89.125541096283825 -31.147758831616340 -19.598505831176691 11.039121507537496 80.418999999999997
4 89.125541096283825 31.147758831616340 19.598505831176691 -11.039121507537496 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -8.8642620133979947E-006 OLP: -8.8642620133979930E-006
COEFFICIENT SINGLE POLE:
MadFKS: 3.3812980420473642E-005 OLP: 3.3812980420428485E-005
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6569E+01 +/- 0.3156E-01 ( 0.480 %)
Integral = 0.6486E+01 +/- 0.3191E-01 ( 0.492 %)
Virtual = 0.1525E-01 +/- 0.1264E-01 ( 82.861 %)
Virtual ratio = -.7996E-01 +/- 0.4478E-02 ( 5.600 %)
ABS virtual = 0.1222E+00 +/- 0.1262E-01 ( 10.331 %)
Born = 0.4084E-01 +/- 0.4714E-02 ( 11.542 %)
V 2 = 0.1525E-01 +/- 0.1264E-01 ( 82.861 %)
B 2 = 0.4084E-01 +/- 0.4714E-02 ( 11.542 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6569E+01 +/- 0.3156E-01 ( 0.480 %)
accumulated results Integral = 0.6486E+01 +/- 0.3191E-01 ( 0.492 %)
accumulated results Virtual = 0.1525E-01 +/- 0.1264E-01 ( 82.861 %)
accumulated results Virtual ratio = -.7996E-01 +/- 0.4478E-02 ( 5.600 %)
accumulated results ABS virtual = 0.1222E+00 +/- 0.1262E-01 ( 10.331 %)
accumulated results Born = 0.4084E-01 +/- 0.4714E-02 ( 11.542 %)
accumulated results V 2 = 0.1525E-01 +/- 0.1264E-01 ( 82.861 %)
accumulated results B 2 = 0.4084E-01 +/- 0.4714E-02 ( 11.542 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 F 209 256 0.3930E-01 0.3930E-01 0.5000E-02
channel 2 : 1 T 244 256 0.3069E-01 0.2978E-01 0.5000E-02
channel 3 : 2 T 6386 1705 0.8207E+00 0.8081E+00 0.5000E-02
channel 4 : 2 T 5717 1521 0.7747E+00 0.7579E+00 0.6306E-02
channel 5 : 3 T 18236 4833 0.2438E+01 0.2411E+01 0.5000E-02
channel 6 : 3 T 18359 4913 0.2466E+01 0.2440E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5689794760839932 +/- 3.1560741748272017E-002
Final result: 6.4855155104409805 +/- 3.1909998118829122E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 253
Stability unknown: 0
Stable PS point: 253
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 253
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 253
counters for the granny resonances
ntot 0
Time spent in Born : 0.248546273
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.65483379
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.51374626
Time spent in Integrated_CT : 1.21415424
Time spent in Virtuals : 4.65208817
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.68735528
Time spent in N1body_prefactor : 5.12062162E-02
Time spent in Adding_alphas_pdf : 0.877453923
Time spent in Reweight_scale : 3.95870852
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.27961922
Time spent in Applying_cuts : 0.280668616
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.83233166
Time spent in Other_tasks : 2.25701141
Time spent in Total : 32.5077248
Time in seconds: 51
LOG file for integration channel /P0_ddx_wpwm/all_G1_24, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
972
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 2.0216881405716422E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 24
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.6590E+00 0.0000E+00 0.1120E-01
channel 2 : 1 F 0 256 0.7967E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1705 0.2006E+02 0.0000E+00 0.6753E-02
channel 4 : 2 F 0 1521 0.1906E+02 0.0000E+00 0.8928E-02
channel 5 : 3 F 0 4833 0.5940E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4913 0.5985E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 2 , 75768
with seed 52
Ranmar initialization seeds 5028 25035
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.816541D+02 0.816541D+02 1.00
muF1, muF1_reference: 0.816541D+02 0.816541D+02 1.00
muF2, muF2_reference: 0.816541D+02 0.816541D+02 1.00
QES, QES_reference: 0.816541D+02 0.816541D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12000165125364372
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12026735552586747
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.3627656073078361E-005 OLP: -2.3627656073078439E-005
COEFFICIENT SINGLE POLE:
MadFKS: -2.9870736903181959E-005 OLP: -2.9870736862948331E-005
FINITE:
OLP: 2.8267942394296845E-003
BORN: 8.6132490593420180E-002
MOMENTA (Exyzm):
1 80.981737076258042 0.0000000000000000 0.0000000000000000 80.981737076258042 0.0000000000000000
2 80.981737076258042 -0.0000000000000000 -0.0000000000000000 -80.981737076258042 0.0000000000000000
3 80.981737076258042 -2.3898040211849008 -2.2852880874860664 -8.9382590019371264 80.418999999999997
4 80.981737076258042 2.3898040211849008 2.2852880874860664 8.9382590019371264 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.3627656073078361E-005 OLP: -2.3627656073078439E-005
COEFFICIENT SINGLE POLE:
MadFKS: -2.9870736903181932E-005 OLP: -2.9870736862948331E-005
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6560E+01 +/- 0.2782E-01 ( 0.424 %)
Integral = 0.6447E+01 +/- 0.2836E-01 ( 0.440 %)
Virtual = -.1462E-01 +/- 0.1123E-01 ( 76.800 %)
Virtual ratio = -.8078E-01 +/- 0.3866E-02 ( 4.786 %)
ABS virtual = 0.1274E+00 +/- 0.1121E-01 ( 8.803 %)
Born = 0.4295E-01 +/- 0.3165E-02 ( 7.370 %)
V 2 = -.1462E-01 +/- 0.1123E-01 ( 76.800 %)
B 2 = 0.4295E-01 +/- 0.3165E-02 ( 7.370 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6560E+01 +/- 0.2782E-01 ( 0.424 %)
accumulated results Integral = 0.6447E+01 +/- 0.2836E-01 ( 0.440 %)
accumulated results Virtual = -.1462E-01 +/- 0.1123E-01 ( 76.800 %)
accumulated results Virtual ratio = -.8078E-01 +/- 0.3866E-02 ( 4.786 %)
accumulated results ABS virtual = 0.1274E+00 +/- 0.1121E-01 ( 8.803 %)
accumulated results Born = 0.4295E-01 +/- 0.3165E-02 ( 7.370 %)
accumulated results V 2 = -.1462E-01 +/- 0.1123E-01 ( 76.800 %)
accumulated results B 2 = 0.4295E-01 +/- 0.3165E-02 ( 7.370 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 F 198 256 0.3822E-01 0.3675E-01 0.7202E-02
channel 2 : 1 T 250 256 0.3961E-01 0.3594E-01 0.5164E-02
channel 3 : 2 T 6178 1705 0.8008E+00 0.7761E+00 0.5417E-02
channel 4 : 2 T 5911 1521 0.7958E+00 0.7809E+00 0.5817E-02
channel 5 : 3 T 18304 4833 0.2455E+01 0.2419E+01 0.5000E-02
channel 6 : 3 T 18307 4913 0.2431E+01 0.2398E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5603966191526739 +/- 2.7823727346027099E-002
Final result: 6.4467597676421500 +/- 2.8358978617558817E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 284
Stability unknown: 0
Stable PS point: 284
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 284
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 284
counters for the granny resonances
ntot 0
Time spent in Born : 0.249240011
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.64524364
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.51243162
Time spent in Integrated_CT : 1.20416784
Time spent in Virtuals : 5.19727516
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.71111822
Time spent in N1body_prefactor : 5.12672886E-02
Time spent in Adding_alphas_pdf : 0.874132872
Time spent in Reweight_scale : 3.99414921
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.25994933
Time spent in Applying_cuts : 0.278727770
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.83069658
Time spent in Other_tasks : 2.29028702
Time spent in Total : 33.0986862
Time in seconds: 56
LOG file for integration channel /P0_ddx_wpwm/all_G1_25, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
970
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 2.0216881405716422E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 25
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.6590E+00 0.0000E+00 0.1120E-01
channel 2 : 1 F 0 256 0.7967E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1705 0.2006E+02 0.0000E+00 0.6753E-02
channel 4 : 2 F 0 1521 0.1906E+02 0.0000E+00 0.8928E-02
channel 5 : 3 F 0 4833 0.5940E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 4913 0.5985E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 2 , 78925
with seed 52
Ranmar initialization seeds 5028 28192
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.819981D+02 0.819981D+02 1.00
muF1, muF1_reference: 0.819981D+02 0.819981D+02 1.00
muF2, muF2_reference: 0.819981D+02 0.819981D+02 1.00
QES, QES_reference: 0.819981D+02 0.819981D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.11992430477049319
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 1 -1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 1 -1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 1 -1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 1 -1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 1 -1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 1 -1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 -1 1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 -1 1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 -1 1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 -1 1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 -1 1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 -1 1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
REAL 3: keeping split order 1
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11996309864374773
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.7603775330968028E-005 OLP: -1.7603775330967920E-005
COEFFICIENT SINGLE POLE:
MadFKS: -3.6415934077027243E-008 OLP: -3.6415903705020593E-008
FINITE:
OLP: -1.2644868488632970E-004
BORN: 6.4172976295813269E-002
MOMENTA (Exyzm):
1 81.852945925375494 0.0000000000000000 0.0000000000000000 81.852945925375494 0.0000000000000000
2 81.852945925375494 -0.0000000000000000 -0.0000000000000000 -81.852945925375494 0.0000000000000000
3 81.852945925375494 -15.086848336371759 -0.74642112379351888 -2.1258077156030288 80.418999999999997
4 81.852945925375494 15.086848336371759 0.74642112379351888 2.1258077156030288 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.7603775330968028E-005 OLP: -1.7603775330967920E-005
COEFFICIENT SINGLE POLE:
MadFKS: -3.6415934077054348E-008 OLP: -3.6415903705020593E-008
ABS integral = 0.6545E+01 +/- 0.3155E-01 ( 0.482 %)
Integral = 0.6469E+01 +/- 0.3187E-01 ( 0.493 %)
Virtual = -.1111E-02 +/- 0.8493E-02 ( 764.492 %)
Virtual ratio = -.7173E-01 +/- 0.2630E-02 ( 3.667 %)
ABS virtual = 0.9889E-01 +/- 0.8481E-02 ( 8.576 %)
Born = 0.3812E-01 +/- 0.2841E-02 ( 7.452 %)
V 2 = -.1111E-02 +/- 0.8493E-02 ( 764.492 %)
B 2 = 0.3812E-01 +/- 0.2841E-02 ( 7.452 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6545E+01 +/- 0.3155E-01 ( 0.482 %)
accumulated results Integral = 0.6469E+01 +/- 0.3187E-01 ( 0.493 %)
accumulated results Virtual = -.1111E-02 +/- 0.8493E-02 ( 764.492 %)
accumulated results Virtual ratio = -.7173E-01 +/- 0.2630E-02 ( 3.667 %)
accumulated results ABS virtual = 0.9889E-01 +/- 0.8481E-02 ( 8.576 %)
accumulated results Born = 0.3812E-01 +/- 0.2841E-02 ( 7.452 %)
accumulated results V 2 = -.1111E-02 +/- 0.8493E-02 ( 764.492 %)
accumulated results B 2 = 0.3812E-01 +/- 0.2841E-02 ( 7.452 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 F 203 256 0.3456E-01 0.3455E-01 0.5000E-02
channel 2 : 1 T 256 256 0.2975E-01 0.2974E-01 0.5000E-02
channel 3 : 2 T 6144 1705 0.7751E+00 0.7646E+00 0.5000E-02
channel 4 : 2 T 5803 1521 0.7848E+00 0.7784E+00 0.5000E-02
channel 5 : 3 T 18309 4833 0.2458E+01 0.2422E+01 0.5000E-02
channel 6 : 3 T 18437 4913 0.2462E+01 0.2440E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5448049493114659 +/- 3.1551004588574877E-002
Final result: 6.4693336787327604 +/- 3.1866105347899500E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 273
Stability unknown: 0
Stable PS point: 273
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 273
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 273
counters for the granny resonances
ntot 0
Time spent in Born : 0.250489056
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.66726875
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.53533828
Time spent in Integrated_CT : 1.21172333
Time spent in Virtuals : 5.00646877
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.71129560
Time spent in N1body_prefactor : 5.51182330E-02
Time spent in Adding_alphas_pdf : 0.880769253
Time spent in Reweight_scale : 4.00756216
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.29529870
Time spent in Applying_cuts : 0.287751496
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.85005236
Time spent in Other_tasks : 2.31982231
Time spent in Total : 33.0789604
Time in seconds: 52
LOG file for integration channel /P0_uxu_wpwm/all_G1_1, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
973
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9615493614169939E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 1
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 493 0.3501E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 517 0.4070E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1364 0.1674E+02 0.0000E+00 0.7012E-02
channel 4 : 2 F 0 1264 0.1682E+02 0.0000E+00 0.7036E-02
channel 5 : 3 F 0 4831 0.6307E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 5073 0.6557E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 3 , 3157
with seed 52
Ranmar initialization seeds 5028 12587
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.808058D+02 0.808058D+02 1.00
muF1, muF1_reference: 0.808058D+02 0.808058D+02 1.00
muF2, muF2_reference: 0.808058D+02 0.808058D+02 1.00
QES, QES_reference: 0.808058D+02 0.808058D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12019426565844102
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
REAL 3: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11982080670950583
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.2271929517652940E-004 OLP: -2.2271929517652869E-004
COEFFICIENT SINGLE POLE:
MadFKS: -4.7435764603611389E-004 OLP: -4.7435764603610017E-004
FINITE:
OLP: -1.3102832687653256E-002
BORN: 0.20297577907678385
MOMENTA (Exyzm):
1 94.999161962560294 0.0000000000000000 0.0000000000000000 94.999161962560294 0.0000000000000000
2 94.999161962560294 -0.0000000000000000 -0.0000000000000000 -94.999161962560294 0.0000000000000000
3 94.999161962560294 -17.948127188816635 -3.2409298700686229 -47.169760616099403 80.418999999999997
4 94.999161962560294 17.948127188816635 3.2409298700686229 47.169760616099403 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.2271929517652940E-004 OLP: -2.2271929517652869E-004
COEFFICIENT SINGLE POLE:
MadFKS: -4.7435764603611383E-004 OLP: -4.7435764603610017E-004
ABS integral = 0.6811E+01 +/- 0.2957E-01 ( 0.434 %)
Integral = 0.6728E+01 +/- 0.2996E-01 ( 0.445 %)
Virtual = 0.3550E-02 +/- 0.9849E-02 ( 277.461 %)
Virtual ratio = -.7871E-01 +/- 0.2497E-02 ( 3.172 %)
ABS virtual = 0.1052E+00 +/- 0.9838E-02 ( 9.347 %)
Born = 0.3675E-01 +/- 0.2706E-02 ( 7.362 %)
V 2 = 0.3550E-02 +/- 0.9849E-02 ( 277.461 %)
B 2 = 0.3675E-01 +/- 0.2706E-02 ( 7.362 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6811E+01 +/- 0.2957E-01 ( 0.434 %)
accumulated results Integral = 0.6728E+01 +/- 0.2996E-01 ( 0.445 %)
accumulated results Virtual = 0.3550E-02 +/- 0.9849E-02 ( 277.461 %)
accumulated results Virtual ratio = -.7871E-01 +/- 0.2497E-02 ( 3.172 %)
accumulated results ABS virtual = 0.1052E+00 +/- 0.9838E-02 ( 9.347 %)
accumulated results Born = 0.3675E-01 +/- 0.2706E-02 ( 7.362 %)
accumulated results V 2 = 0.3550E-02 +/- 0.9849E-02 ( 277.461 %)
accumulated results B 2 = 0.3675E-01 +/- 0.2706E-02 ( 7.362 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 966 493 0.1418E+00 0.1417E+00 0.5000E-02
channel 2 : 1 T 1180 517 0.1468E+00 0.1432E+00 0.5000E-02
channel 3 : 2 T 4864 1364 0.6554E+00 0.6492E+00 0.5000E-02
channel 4 : 2 T 4848 1264 0.6674E+00 0.6564E+00 0.5000E-02
channel 5 : 3 T 18344 4831 0.2592E+01 0.2558E+01 0.5000E-02
channel 6 : 3 T 18943 5073 0.2608E+01 0.2579E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8109009816379844 +/- 2.9574265860960722E-002
Final result: 6.7276183850954761 +/- 2.9959584715328370E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 249
Stability unknown: 0
Stable PS point: 249
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 249
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 249
counters for the granny resonances
ntot 0
Time spent in Born : 0.252550662
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.71381998
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.65201938
Time spent in Integrated_CT : 1.24063659
Time spent in Virtuals : 3.70224690
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.69241214
Time spent in N1body_prefactor : 5.34948185E-02
Time spent in Adding_alphas_pdf : 0.894507647
Time spent in Reweight_scale : 4.11916161
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.30172813
Time spent in Applying_cuts : 0.283169627
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.74939919
Time spent in Other_tasks : 2.30278397
Time spent in Total : 31.9579296
Time in seconds: 48
LOG file for integration channel /P0_uxu_wpwm/all_G1_2, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
968
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9615493614169939E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 2
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 493 0.3501E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 517 0.4070E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1364 0.1674E+02 0.0000E+00 0.7012E-02
channel 4 : 2 F 0 1264 0.1682E+02 0.0000E+00 0.7036E-02
channel 5 : 3 F 0 4831 0.6307E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 5073 0.6557E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 3 , 6314
with seed 52
Ranmar initialization seeds 5028 15744
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.806318D+02 0.806318D+02 1.00
muF1, muF1_reference: 0.806318D+02 0.806318D+02 1.00
muF2, muF2_reference: 0.806318D+02 0.806318D+02 1.00
QES, QES_reference: 0.806318D+02 0.806318D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12023409948164489
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
REAL 3: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12027513266526789
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -8.9424401957428635E-005 OLP: -8.9424401957427713E-005
COEFFICIENT SINGLE POLE:
MadFKS: -5.6841738812302590E-005 OLP: -5.6841738652319675E-005
FINITE:
OLP: 4.0198460818816409E-003
BORN: 8.1497149321516610E-002
MOMENTA (Exyzm):
1 80.802711394729528 0.0000000000000000 0.0000000000000000 80.802711394729528 0.0000000000000000
2 80.802711394729528 -0.0000000000000000 -0.0000000000000000 -80.802711394729528 0.0000000000000000
3 80.802711394729528 -0.99465728532025832 -2.1210982257424384 -7.5082758967332524 80.418999999999997
4 80.802711394729528 0.99465728532025832 2.1210982257424384 7.5082758967332586 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -8.9424401957428635E-005 OLP: -8.9424401957427713E-005
COEFFICIENT SINGLE POLE:
MadFKS: -5.6841738812302671E-005 OLP: -5.6841738652319675E-005
ABS integral = 0.6863E+01 +/- 0.3030E-01 ( 0.441 %)
Integral = 0.6773E+01 +/- 0.3071E-01 ( 0.453 %)
Virtual = 0.4628E-03 +/- 0.1053E-01 ( ******* %)
Virtual ratio = -.8036E-01 +/- 0.2363E-02 ( 2.941 %)
ABS virtual = 0.1187E+00 +/- 0.1052E-01 ( 8.860 %)
Born = 0.4626E-01 +/- 0.3230E-02 ( 6.983 %)
V 2 = 0.4628E-03 +/- 0.1053E-01 ( ******* %)
B 2 = 0.4626E-01 +/- 0.3230E-02 ( 6.983 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6863E+01 +/- 0.3030E-01 ( 0.441 %)
accumulated results Integral = 0.6773E+01 +/- 0.3071E-01 ( 0.453 %)
accumulated results Virtual = 0.4628E-03 +/- 0.1053E-01 ( ******* %)
accumulated results Virtual ratio = -.8036E-01 +/- 0.2363E-02 ( 2.941 %)
accumulated results ABS virtual = 0.1187E+00 +/- 0.1052E-01 ( 8.860 %)
accumulated results Born = 0.4626E-01 +/- 0.3230E-02 ( 6.983 %)
accumulated results V 2 = 0.4628E-03 +/- 0.1053E-01 ( ******* %)
accumulated results B 2 = 0.4626E-01 +/- 0.3230E-02 ( 6.983 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 984 493 0.1392E+00 0.1381E+00 0.5000E-02
channel 2 : 1 T 1168 517 0.1438E+00 0.1402E+00 0.5000E-02
channel 3 : 2 T 4984 1364 0.6882E+00 0.6721E+00 0.5000E-02
channel 4 : 2 T 4820 1264 0.6727E+00 0.6645E+00 0.5000E-02
channel 5 : 3 T 18274 4831 0.2567E+01 0.2541E+01 0.5000E-02
channel 6 : 3 T 18928 5073 0.2652E+01 0.2617E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8627753815537957 +/- 3.0295626273748759E-002
Final result: 6.7726469796975577 +/- 3.0705501066453277E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 293
Stability unknown: 0
Stable PS point: 293
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 293
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 293
counters for the granny resonances
ntot 0
Time spent in Born : 0.250398219
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.66538477
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.64585054
Time spent in Integrated_CT : 1.23756123
Time spent in Virtuals : 4.31983471
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.65822744
Time spent in N1body_prefactor : 5.17250076E-02
Time spent in Adding_alphas_pdf : 0.890723109
Time spent in Reweight_scale : 4.03084135
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.30230379
Time spent in Applying_cuts : 0.277022094
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.72161818
Time spent in Other_tasks : 2.26451874
Time spent in Total : 32.3160095
Time in seconds: 51
LOG file for integration channel /P0_uxu_wpwm/all_G1_3, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
23407
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9615493614169939E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 3
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 493 0.3501E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 517 0.4070E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1364 0.1674E+02 0.0000E+00 0.7012E-02
channel 4 : 2 F 0 1264 0.1682E+02 0.0000E+00 0.7036E-02
channel 5 : 3 F 0 4831 0.6307E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 5073 0.6557E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 3 , 9471
with seed 52
Ranmar initialization seeds 5028 18901
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.870205D+02 0.870205D+02 1.00
muF1, muF1_reference: 0.870205D+02 0.870205D+02 1.00
muF2, muF2_reference: 0.870205D+02 0.870205D+02 1.00
QES, QES_reference: 0.870205D+02 0.870205D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.11884073725203449
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
REAL 3: keeping split order 1
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11638896380879483
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -4.9061810083838460E-005 OLP: -4.9061810083838399E-005
COEFFICIENT SINGLE POLE:
MadFKS: 1.9506742107555148E-005 OLP: 1.9506742107560031E-005
FINITE:
OLP: -2.7748309873249864E-003
BORN: 4.4712601648596417E-002
MOMENTA (Exyzm):
1 100.88742027329785 0.0000000000000000 0.0000000000000000 100.88742027329785 0.0000000000000000
2 100.88742027329785 -0.0000000000000000 -0.0000000000000000 -100.88742027329785 0.0000000000000000
3 100.88742027329785 -4.8452093609065212 -59.189612531874367 -13.570914596172038 80.418999999999997
4 100.88742027329785 4.8452093609065212 59.189612531874367 13.570914596172038 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -4.9061810083838460E-005 OLP: -4.9061810083838399E-005
COEFFICIENT SINGLE POLE:
MadFKS: 1.9506742107555175E-005 OLP: 1.9506742107560031E-005
ABS integral = 0.6891E+01 +/- 0.2998E-01 ( 0.435 %)
Integral = 0.6808E+01 +/- 0.3036E-01 ( 0.446 %)
Virtual = 0.5228E-02 +/- 0.1277E-01 ( 244.191 %)
Virtual ratio = -.8222E-01 +/- 0.3506E-02 ( 4.264 %)
ABS virtual = 0.1084E+00 +/- 0.1276E-01 ( 11.772 %)
Born = 0.3975E-01 +/- 0.3028E-02 ( 7.616 %)
V 2 = 0.5228E-02 +/- 0.1277E-01 ( 244.191 %)
B 2 = 0.3975E-01 +/- 0.3028E-02 ( 7.616 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6891E+01 +/- 0.2998E-01 ( 0.435 %)
accumulated results Integral = 0.6808E+01 +/- 0.3036E-01 ( 0.446 %)
accumulated results Virtual = 0.5228E-02 +/- 0.1277E-01 ( 244.191 %)
accumulated results Virtual ratio = -.8222E-01 +/- 0.3506E-02 ( 4.264 %)
accumulated results ABS virtual = 0.1084E+00 +/- 0.1276E-01 ( 11.772 %)
accumulated results Born = 0.3975E-01 +/- 0.3028E-02 ( 7.616 %)
accumulated results V 2 = 0.5228E-02 +/- 0.1277E-01 ( 244.191 %)
accumulated results B 2 = 0.3975E-01 +/- 0.3028E-02 ( 7.616 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1010 493 0.1547E+00 0.1528E+00 0.5000E-02
channel 2 : 1 T 1200 517 0.1478E+00 0.1444E+00 0.5000E-02
channel 3 : 2 T 4848 1364 0.6638E+00 0.6457E+00 0.5373E-02
channel 4 : 2 T 4878 1264 0.6799E+00 0.6734E+00 0.5000E-02
channel 5 : 3 T 18351 4831 0.2634E+01 0.2609E+01 0.5000E-02
channel 6 : 3 T 18863 5073 0.2611E+01 0.2583E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8909204668831991 +/- 2.9976299440171196E-002
Final result: 6.8083342367469797 +/- 3.0357804691164034E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 250
Stability unknown: 0
Stable PS point: 250
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 250
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 250
counters for the granny resonances
ntot 0
Time spent in Born : 0.290212750
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.55290842
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.93039739
Time spent in Integrated_CT : 1.42567539
Time spent in Virtuals : 4.64780426
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.20337439
Time spent in N1body_prefactor : 6.20076209E-02
Time spent in Adding_alphas_pdf : 1.07846117
Time spent in Reweight_scale : 4.69894981
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.51448345
Time spent in Applying_cuts : 0.337743789
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.92648983
Time spent in Other_tasks : 2.99202728
Time spent in Total : 37.6605339
Time in seconds: 56
LOG file for integration channel /P0_uxu_wpwm/all_G1_4, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
23413
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9615493614169939E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 4
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 493 0.3501E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 517 0.4070E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1364 0.1674E+02 0.0000E+00 0.7012E-02
channel 4 : 2 F 0 1264 0.1682E+02 0.0000E+00 0.7036E-02
channel 5 : 3 F 0 4831 0.6307E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 5073 0.6557E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 3 , 12628
with seed 52
Ranmar initialization seeds 5028 22058
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.805796D+02 0.805796D+02 1.00
muF1, muF1_reference: 0.805796D+02 0.805796D+02 1.00
muF2, muF2_reference: 0.805796D+02 0.805796D+02 1.00
QES, QES_reference: 0.805796D+02 0.805796D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12024607065592670
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12003535112572257
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.1769707583196488E-004 OLP: -2.1769707583196965E-004
COEFFICIENT SINGLE POLE:
MadFKS: -4.6296335674138014E-004 OLP: -4.6296335674121886E-004
FINITE:
OLP: -1.2163144035900991E-002
BORN: 0.19839876708799545
MOMENTA (Exyzm):
1 92.522886622881430 0.0000000000000000 0.0000000000000000 92.522886622881430 0.0000000000000000
2 92.522886622881430 -0.0000000000000000 -0.0000000000000000 -92.522886622881430 0.0000000000000000
3 92.522886622881430 -9.8872092437471633 -8.8360035356644691 -43.788550134922914 80.418999999999997
4 92.522886622881430 9.8872092437471633 8.8360035356644691 43.788550134922914 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.1769707583196488E-004 OLP: -2.1769707583196965E-004
COEFFICIENT SINGLE POLE:
MadFKS: -4.6296335674138019E-004 OLP: -4.6296335674121886E-004
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6849E+01 +/- 0.2795E-01 ( 0.408 %)
Integral = 0.6753E+01 +/- 0.2842E-01 ( 0.421 %)
Virtual = 0.2366E-02 +/- 0.1149E-01 ( 485.421 %)
Virtual ratio = -.8563E-01 +/- 0.3316E-02 ( 3.872 %)
ABS virtual = 0.1214E+00 +/- 0.1147E-01 ( 9.449 %)
Born = 0.4206E-01 +/- 0.3039E-02 ( 7.225 %)
V 2 = 0.2366E-02 +/- 0.1149E-01 ( 485.421 %)
B 2 = 0.4206E-01 +/- 0.3039E-02 ( 7.225 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6849E+01 +/- 0.2795E-01 ( 0.408 %)
accumulated results Integral = 0.6753E+01 +/- 0.2842E-01 ( 0.421 %)
accumulated results Virtual = 0.2366E-02 +/- 0.1149E-01 ( 485.421 %)
accumulated results Virtual ratio = -.8563E-01 +/- 0.3316E-02 ( 3.872 %)
accumulated results ABS virtual = 0.1214E+00 +/- 0.1147E-01 ( 9.449 %)
accumulated results Born = 0.4206E-01 +/- 0.3039E-02 ( 7.225 %)
accumulated results V 2 = 0.2366E-02 +/- 0.1149E-01 ( 485.421 %)
accumulated results B 2 = 0.4206E-01 +/- 0.3039E-02 ( 7.225 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1018 493 0.1482E+00 0.1473E+00 0.5000E-02
channel 2 : 1 T 1103 517 0.1436E+00 0.1418E+00 0.5000E-02
channel 3 : 2 T 4805 1364 0.6678E+00 0.6508E+00 0.6144E-02
channel 4 : 2 T 4954 1264 0.6795E+00 0.6669E+00 0.5000E-02
channel 5 : 3 T 18290 4831 0.2580E+01 0.2548E+01 0.5000E-02
channel 6 : 3 T 18982 5073 0.2630E+01 0.2598E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8490088754114575 +/- 2.7948520194665614E-002
Final result: 6.7528696888602795 +/- 2.8420493791732799E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 273
Stability unknown: 0
Stable PS point: 273
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 273
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 273
counters for the granny resonances
ntot 0
Time spent in Born : 0.292783737
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.50883341
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.93231797
Time spent in Integrated_CT : 1.41549921
Time spent in Virtuals : 5.08626556
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.19260025
Time spent in N1body_prefactor : 6.02707118E-02
Time spent in Adding_alphas_pdf : 1.08288693
Time spent in Reweight_scale : 4.76222754
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.54023767
Time spent in Applying_cuts : 0.336361468
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.91822100
Time spent in Other_tasks : 2.99685669
Time spent in Total : 38.1253624
Time in seconds: 62
LOG file for integration channel /P0_uxu_wpwm/all_G1_5, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
23412
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9615493614169939E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 5
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 493 0.3501E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 517 0.4070E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1364 0.1674E+02 0.0000E+00 0.7012E-02
channel 4 : 2 F 0 1264 0.1682E+02 0.0000E+00 0.7036E-02
channel 5 : 3 F 0 4831 0.6307E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 5073 0.6557E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 3 , 15785
with seed 52
Ranmar initialization seeds 5028 25215
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.808324D+02 0.808324D+02 1.00
muF1, muF1_reference: 0.808324D+02 0.808324D+02 1.00
muF2, muF2_reference: 0.808324D+02 0.808324D+02 1.00
QES, QES_reference: 0.808324D+02 0.808324D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12018819154335041
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12021966062952592
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.3515845905293373E-004 OLP: -2.3515845905292860E-004
COEFFICIENT SINGLE POLE:
MadFKS: -5.2521741080861968E-004 OLP: -5.2521741080869167E-004
FINITE:
OLP: -1.3345284676801340E-002
BORN: 0.21431224176123934
MOMENTA (Exyzm):
1 92.569061978974091 0.0000000000000000 0.0000000000000000 92.569061978974091 0.0000000000000000
2 92.569061978974091 -0.0000000000000000 -0.0000000000000000 -92.569061978974091 0.0000000000000000
3 92.569061978974091 -6.5782692699908676 -1.0818260281302696 -45.358259452094302 80.418999999999997
4 92.569061978974091 6.5782692699908676 1.0818260281302696 45.358259452094302 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.3515845905293373E-004 OLP: -2.3515845905292860E-004
COEFFICIENT SINGLE POLE:
MadFKS: -5.2521741080861978E-004 OLP: -5.2521741080869167E-004
ABS integral = 0.6842E+01 +/- 0.2868E-01 ( 0.419 %)
Integral = 0.6761E+01 +/- 0.2907E-01 ( 0.430 %)
Virtual = 0.1549E-01 +/- 0.1053E-01 ( 68.000 %)
Virtual ratio = -.8646E-01 +/- 0.5410E-02 ( 6.257 %)
ABS virtual = 0.1096E+00 +/- 0.1052E-01 ( 9.601 %)
Born = 0.3841E-01 +/- 0.2775E-02 ( 7.224 %)
V 2 = 0.1549E-01 +/- 0.1053E-01 ( 68.000 %)
B 2 = 0.3841E-01 +/- 0.2775E-02 ( 7.224 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6842E+01 +/- 0.2868E-01 ( 0.419 %)
accumulated results Integral = 0.6761E+01 +/- 0.2907E-01 ( 0.430 %)
accumulated results Virtual = 0.1549E-01 +/- 0.1053E-01 ( 68.000 %)
accumulated results Virtual ratio = -.8646E-01 +/- 0.5410E-02 ( 6.257 %)
accumulated results ABS virtual = 0.1096E+00 +/- 0.1052E-01 ( 9.601 %)
accumulated results Born = 0.3841E-01 +/- 0.2775E-02 ( 7.224 %)
accumulated results V 2 = 0.1549E-01 +/- 0.1053E-01 ( 68.000 %)
accumulated results B 2 = 0.3841E-01 +/- 0.2775E-02 ( 7.224 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 971 493 0.1418E+00 0.1413E+00 0.5000E-02
channel 2 : 1 T 1160 517 0.1537E+00 0.1489E+00 0.5000E-02
channel 3 : 2 T 4704 1364 0.6368E+00 0.6312E+00 0.5000E-02
channel 4 : 2 T 4834 1264 0.6690E+00 0.6601E+00 0.5000E-02
channel 5 : 3 T 18333 4831 0.2585E+01 0.2561E+01 0.5000E-02
channel 6 : 3 T 19155 5073 0.2655E+01 0.2619E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8417821907101795 +/- 2.8680959346943834E-002
Final result: 6.7611815529448380 +/- 2.9067230653026101E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 262
Stability unknown: 0
Stable PS point: 262
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 262
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 262
counters for the granny resonances
ntot 0
Time spent in Born : 0.293686807
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.55710554
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.94636786
Time spent in Integrated_CT : 1.42099762
Time spent in Virtuals : 4.91862583
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.21969223
Time spent in N1body_prefactor : 5.99460006E-02
Time spent in Adding_alphas_pdf : 1.08287477
Time spent in Reweight_scale : 4.70715523
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.51971316
Time spent in Applying_cuts : 0.330789745
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.89592123
Time spent in Other_tasks : 2.93936157
Time spent in Total : 37.8922348
Time in seconds: 56
LOG file for integration channel /P0_uxu_wpwm/all_G1_6, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
23405
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9615493614169939E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 6
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 493 0.3501E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 517 0.4070E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1364 0.1674E+02 0.0000E+00 0.7012E-02
channel 4 : 2 F 0 1264 0.1682E+02 0.0000E+00 0.7036E-02
channel 5 : 3 F 0 4831 0.6307E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 5073 0.6557E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 3 , 18942
with seed 52
Ranmar initialization seeds 5028 28372
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.805274D+02 0.805274D+02 1.00
muF1, muF1_reference: 0.805274D+02 0.805274D+02 1.00
muF2, muF2_reference: 0.805274D+02 0.805274D+02 1.00
QES, QES_reference: 0.805274D+02 0.805274D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12025805460399583
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12020443738887865
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.1569735972231248E-004 OLP: -2.1569735972230705E-004
COEFFICIENT SINGLE POLE:
MadFKS: -4.5965411968530500E-004 OLP: -4.5965411968514947E-004
FINITE:
OLP: -1.1839400300855431E-002
BORN: 0.19657632087844107
MOMENTA (Exyzm):
1 90.832779820035540 0.0000000000000000 0.0000000000000000 90.832779820035540 0.0000000000000000
2 90.832779820035540 -0.0000000000000000 -0.0000000000000000 -90.832779820035540 0.0000000000000000
3 90.832779820035540 -6.6809501287227127 -3.2475751093622778 -41.571582723317469 80.418999999999997
4 90.832779820035540 6.6809501287227127 3.2475751093622778 41.571582723317469 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.1569735972231248E-004 OLP: -2.1569735972230705E-004
COEFFICIENT SINGLE POLE:
MadFKS: -4.5965411968530506E-004 OLP: -4.5965411968514947E-004
ABS integral = 0.6852E+01 +/- 0.3002E-01 ( 0.438 %)
Integral = 0.6744E+01 +/- 0.3051E-01 ( 0.452 %)
Virtual = -.1192E-01 +/- 0.1159E-01 ( 97.205 %)
Virtual ratio = -.8595E-01 +/- 0.2673E-02 ( 3.110 %)
ABS virtual = 0.1162E+00 +/- 0.1157E-01 ( 9.959 %)
Born = 0.4281E-01 +/- 0.3108E-02 ( 7.260 %)
V 2 = -.1192E-01 +/- 0.1159E-01 ( 97.205 %)
B 2 = 0.4281E-01 +/- 0.3108E-02 ( 7.260 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6852E+01 +/- 0.3002E-01 ( 0.438 %)
accumulated results Integral = 0.6744E+01 +/- 0.3051E-01 ( 0.452 %)
accumulated results Virtual = -.1192E-01 +/- 0.1159E-01 ( 97.205 %)
accumulated results Virtual ratio = -.8595E-01 +/- 0.2673E-02 ( 3.110 %)
accumulated results ABS virtual = 0.1162E+00 +/- 0.1157E-01 ( 9.959 %)
accumulated results Born = 0.4281E-01 +/- 0.3108E-02 ( 7.260 %)
accumulated results V 2 = -.1192E-01 +/- 0.1159E-01 ( 97.205 %)
accumulated results B 2 = 0.4281E-01 +/- 0.3108E-02 ( 7.260 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1107 493 0.1547E+00 0.1515E+00 0.5000E-02
channel 2 : 1 T 1205 517 0.1526E+00 0.1392E+00 0.6218E-02
channel 3 : 2 T 4745 1364 0.6458E+00 0.6276E+00 0.5000E-02
channel 4 : 2 T 4868 1264 0.6649E+00 0.6504E+00 0.5000E-02
channel 5 : 3 T 18113 4831 0.2579E+01 0.2548E+01 0.5000E-02
channel 6 : 3 T 19116 5073 0.2655E+01 0.2627E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8521404648124600 +/- 3.0017884489717223E-002
Final result: 6.7441871668852791 +/- 3.0511230947565571E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 275
Stability unknown: 0
Stable PS point: 275
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 275
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 275
counters for the granny resonances
ntot 0
Time spent in Born : 0.292736620
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.51747656
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.94345891
Time spent in Integrated_CT : 1.41951513
Time spent in Virtuals : 5.12058115
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.21023178
Time spent in N1body_prefactor : 5.92126995E-02
Time spent in Adding_alphas_pdf : 1.08011806
Time spent in Reweight_scale : 4.72153139
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.53403068
Time spent in Applying_cuts : 0.331140637
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.88811779
Time spent in Other_tasks : 2.95873642
Time spent in Total : 38.0768890
Time in seconds: 62
LOG file for integration channel /P0_uxu_wpwm/all_G1_7, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
23408
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9615493614169939E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 7
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 493 0.3501E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 517 0.4070E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1364 0.1674E+02 0.0000E+00 0.7012E-02
channel 4 : 2 F 0 1264 0.1682E+02 0.0000E+00 0.7036E-02
channel 5 : 3 F 0 4831 0.6307E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 5073 0.6557E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 3 , 22099
with seed 52
Ranmar initialization seeds 5028 1448
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.871264D+02 0.871264D+02 1.00
muF1, muF1_reference: 0.871264D+02 0.871264D+02 1.00
muF2, muF2_reference: 0.871264D+02 0.871264D+02 1.00
QES, QES_reference: 0.871264D+02 0.871264D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.11881877220375674
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12027635009219231
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.2299353931709126E-004 OLP: -1.2299353931705879E-004
COEFFICIENT SINGLE POLE:
MadFKS: -1.5526405452536617E-004 OLP: -1.5526405452779676E-004
FINITE:
OLP: -2.9741280642761091E-003
BORN: 0.11209046546465758
MOMENTA (Exyzm):
1 82.496489153579404 0.0000000000000000 0.0000000000000000 82.496489153579404 0.0000000000000000
2 82.496489153579404 -0.0000000000000000 -0.0000000000000000 -82.496489153579404 0.0000000000000000
3 82.496489153579404 -0.32373749200089175 -2.1287718582932831 -18.270705680905053 80.418999999999997
4 82.496489153579404 0.32373749200089175 2.1287718582932831 18.270705680905060 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.2299353931709126E-004 OLP: -1.2299353931705879E-004
COEFFICIENT SINGLE POLE:
MadFKS: -1.5526405452536611E-004 OLP: -1.5526405452779676E-004
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
ABS integral = 0.6882E+01 +/- 0.3044E-01 ( 0.442 %)
Integral = 0.6781E+01 +/- 0.3090E-01 ( 0.456 %)
Virtual = -.2089E-02 +/- 0.1126E-01 ( 539.052 %)
Virtual ratio = -.8122E-01 +/- 0.3444E-02 ( 4.240 %)
ABS virtual = 0.1158E+00 +/- 0.1125E-01 ( 9.714 %)
Born = 0.4007E-01 +/- 0.2898E-02 ( 7.233 %)
V 2 = -.2089E-02 +/- 0.1126E-01 ( 539.052 %)
B 2 = 0.4007E-01 +/- 0.2898E-02 ( 7.233 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6882E+01 +/- 0.3044E-01 ( 0.442 %)
accumulated results Integral = 0.6781E+01 +/- 0.3090E-01 ( 0.456 %)
accumulated results Virtual = -.2089E-02 +/- 0.1126E-01 ( 539.052 %)
accumulated results Virtual ratio = -.8122E-01 +/- 0.3444E-02 ( 4.240 %)
accumulated results ABS virtual = 0.1158E+00 +/- 0.1125E-01 ( 9.714 %)
accumulated results Born = 0.4007E-01 +/- 0.2898E-02 ( 7.233 %)
accumulated results V 2 = -.2089E-02 +/- 0.1126E-01 ( 539.052 %)
accumulated results B 2 = 0.4007E-01 +/- 0.2898E-02 ( 7.233 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1023 493 0.1472E+00 0.1471E+00 0.5000E-02
channel 2 : 1 T 1169 517 0.1507E+00 0.1409E+00 0.5112E-02
channel 3 : 2 T 4869 1364 0.6675E+00 0.6611E+00 0.5000E-02
channel 4 : 2 T 4917 1264 0.6756E+00 0.6620E+00 0.5000E-02
channel 5 : 3 T 18292 4831 0.2612E+01 0.2584E+01 0.5000E-02
channel 6 : 3 T 18885 5073 0.2630E+01 0.2586E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8821270720242937 +/- 3.0442512063810233E-002
Final result: 6.7811829724244346 +/- 3.0899952390300110E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 272
Stability unknown: 0
Stable PS point: 272
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 272
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 272
counters for the granny resonances
ntot 0
Time spent in Born : 0.291654199
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.54955196
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.93981981
Time spent in Integrated_CT : 1.42039537
Time spent in Virtuals : 5.04309607
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.19884634
Time spent in N1body_prefactor : 5.98166734E-02
Time spent in Adding_alphas_pdf : 1.07967579
Time spent in Reweight_scale : 4.74304247
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.52720523
Time spent in Applying_cuts : 0.326504827
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.91044331
Time spent in Other_tasks : 2.96003723
Time spent in Total : 38.0500870
Time in seconds: 62
LOG file for integration channel /P0_uxu_wpwm/all_G1_8, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
23404
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9615493614169939E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 8
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 493 0.3501E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 517 0.4070E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1364 0.1674E+02 0.0000E+00 0.7012E-02
channel 4 : 2 F 0 1264 0.1682E+02 0.0000E+00 0.7036E-02
channel 5 : 3 F 0 4831 0.6307E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 5073 0.6557E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 3 , 25256
with seed 52
Ranmar initialization seeds 5028 4605
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.825906D+02 0.825906D+02 1.00
muF1, muF1_reference: 0.825906D+02 0.825906D+02 1.00
muF2, muF2_reference: 0.825906D+02 0.825906D+02 1.00
QES, QES_reference: 0.825906D+02 0.825906D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.11979204237168631
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 2: keeping split order 1
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12026691244591328
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.6360368458581653E-004 OLP: -2.6360368458583903E-004
COEFFICIENT SINGLE POLE:
MadFKS: -6.2247449848506901E-004 OLP: -6.2247449848499528E-004
FINITE:
OLP: -1.5927669908382815E-002
BORN: 0.24023586822106369
MOMENTA (Exyzm):
1 94.931058974020758 0.0000000000000000 0.0000000000000000 94.931058974020758 0.0000000000000000
2 94.931058974020758 -0.0000000000000000 -0.0000000000000000 -94.931058974020758 0.0000000000000000
3 94.931058974020758 -3.1557113015748439 -1.1338344669513538 -50.333351790951440 80.418999999999997
4 94.931058974020758 3.1557113015748439 1.1338344669513538 50.333351790951440 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.6360368458581653E-004 OLP: -2.6360368458583903E-004
COEFFICIENT SINGLE POLE:
MadFKS: -6.2247449848506912E-004 OLP: -6.2247449848499528E-004
ABS integral = 0.6860E+01 +/- 0.3078E-01 ( 0.449 %)
Integral = 0.6732E+01 +/- 0.3135E-01 ( 0.466 %)
Virtual = -.1661E-01 +/- 0.1370E-01 ( 82.477 %)
Virtual ratio = -.8534E-01 +/- 0.4367E-02 ( 5.117 %)
ABS virtual = 0.1323E+00 +/- 0.1369E-01 ( 10.348 %)
Born = 0.3984E-01 +/- 0.2829E-02 ( 7.102 %)
V 2 = -.1661E-01 +/- 0.1370E-01 ( 82.477 %)
B 2 = 0.3984E-01 +/- 0.2829E-02 ( 7.102 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6860E+01 +/- 0.3078E-01 ( 0.449 %)
accumulated results Integral = 0.6732E+01 +/- 0.3135E-01 ( 0.466 %)
accumulated results Virtual = -.1661E-01 +/- 0.1370E-01 ( 82.477 %)
accumulated results Virtual ratio = -.8534E-01 +/- 0.4367E-02 ( 5.117 %)
accumulated results ABS virtual = 0.1323E+00 +/- 0.1369E-01 ( 10.348 %)
accumulated results Born = 0.3984E-01 +/- 0.2829E-02 ( 7.102 %)
accumulated results V 2 = -.1661E-01 +/- 0.1370E-01 ( 82.477 %)
accumulated results B 2 = 0.3984E-01 +/- 0.2829E-02 ( 7.102 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1032 493 0.1498E+00 0.1493E+00 0.5000E-02
channel 2 : 1 T 1204 517 0.1523E+00 0.1394E+00 0.7035E-02
channel 3 : 2 T 4851 1364 0.6627E+00 0.6482E+00 0.5000E-02
channel 4 : 2 T 4926 1264 0.6748E+00 0.6544E+00 0.5055E-02
channel 5 : 3 T 18210 4831 0.2581E+01 0.2538E+01 0.5000E-02
channel 6 : 3 T 18925 5073 0.2640E+01 0.2603E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8604595606079890 +/- 3.0778925851143935E-002
Final result: 6.7320748776611481 +/- 3.1350372919438367E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 271
Stability unknown: 0
Stable PS point: 271
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 271
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 271
counters for the granny resonances
ntot 0
Time spent in Born : 0.291670978
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.54768372
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.92814827
Time spent in Integrated_CT : 1.42655611
Time spent in Virtuals : 5.03941631
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.21720076
Time spent in N1body_prefactor : 6.12063706E-02
Time spent in Adding_alphas_pdf : 1.08439839
Time spent in Reweight_scale : 4.73604012
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.52323318
Time spent in Applying_cuts : 0.329487503
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.90405273
Time spent in Other_tasks : 2.97227097
Time spent in Total : 38.0613670
Time in seconds: 62
LOG file for integration channel /P0_uxu_wpwm/all_G1_9, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
23409
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9615493614169939E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 9
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 493 0.3501E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 517 0.4070E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1364 0.1674E+02 0.0000E+00 0.7012E-02
channel 4 : 2 F 0 1264 0.1682E+02 0.0000E+00 0.7036E-02
channel 5 : 3 F 0 4831 0.6307E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 5073 0.6557E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 3 , 28413
with seed 52
Ranmar initialization seeds 5028 7762
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.816238D+02 0.816238D+02 1.00
muF1, muF1_reference: 0.816238D+02 0.816238D+02 1.00
muF2, muF2_reference: 0.816238D+02 0.816238D+02 1.00
QES, QES_reference: 0.816238D+02 0.816238D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12000849028305363
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12001254566477088
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.7870761566224588E-004 OLP: -1.7870761566224675E-004
COEFFICIENT SINGLE POLE:
MadFKS: -3.3537114198787615E-004 OLP: -3.3537114198769683E-004
FINITE:
OLP: -9.3549946599244330E-003
BORN: 0.16286562638072399
MOMENTA (Exyzm):
1 88.971924929624322 0.0000000000000000 0.0000000000000000 88.971924929624322 0.0000000000000000
2 88.971924929624322 -0.0000000000000000 -0.0000000000000000 -88.971924929624322 0.0000000000000000
3 88.971924929624322 -4.2584298385767339 -13.197210929707223 -35.446964096653502 80.418999999999997
4 88.971924929624322 4.2584298385767339 13.197210929707223 35.446964096653502 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.7870761566224588E-004 OLP: -1.7870761566224675E-004
COEFFICIENT SINGLE POLE:
MadFKS: -3.3537114198787621E-004 OLP: -3.3537114198769683E-004
ABS integral = 0.6930E+01 +/- 0.3467E-01 ( 0.500 %)
Integral = 0.6807E+01 +/- 0.3517E-01 ( 0.517 %)
Virtual = -.5904E-02 +/- 0.1366E-01 ( 231.291 %)
Virtual ratio = -.8707E-01 +/- 0.3301E-02 ( 3.792 %)
ABS virtual = 0.1354E+00 +/- 0.1364E-01 ( 10.076 %)
Born = 0.4189E-01 +/- 0.2880E-02 ( 6.875 %)
V 2 = -.5904E-02 +/- 0.1366E-01 ( 231.291 %)
B 2 = 0.4189E-01 +/- 0.2880E-02 ( 6.875 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6930E+01 +/- 0.3467E-01 ( 0.500 %)
accumulated results Integral = 0.6807E+01 +/- 0.3517E-01 ( 0.517 %)
accumulated results Virtual = -.5904E-02 +/- 0.1366E-01 ( 231.291 %)
accumulated results Virtual ratio = -.8707E-01 +/- 0.3301E-02 ( 3.792 %)
accumulated results ABS virtual = 0.1354E+00 +/- 0.1364E-01 ( 10.076 %)
accumulated results Born = 0.4189E-01 +/- 0.2880E-02 ( 6.875 %)
accumulated results V 2 = -.5904E-02 +/- 0.1366E-01 ( 231.291 %)
accumulated results B 2 = 0.4189E-01 +/- 0.2880E-02 ( 6.875 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 975 493 0.1440E+00 0.1407E+00 0.5000E-02
channel 2 : 1 T 1236 517 0.1753E+00 0.1497E+00 0.7941E-02
channel 3 : 2 T 4883 1364 0.6676E+00 0.6565E+00 0.5000E-02
channel 4 : 2 T 4841 1264 0.6731E+00 0.6578E+00 0.5000E-02
channel 5 : 3 T 18239 4831 0.2634E+01 0.2592E+01 0.5000E-02
channel 6 : 3 T 18982 5073 0.2636E+01 0.2610E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.9302497500260332 +/- 3.4674963601094969E-002
Final result: 6.8065196772180725 +/- 3.5170052582409274E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 296
Stability unknown: 0
Stable PS point: 296
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 296
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 296
counters for the granny resonances
ntot 0
Time spent in Born : 0.293167055
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.55436468
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.92534709
Time spent in Integrated_CT : 1.41992140
Time spent in Virtuals : 5.44542933
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.20988894
Time spent in N1body_prefactor : 5.94722331E-02
Time spent in Adding_alphas_pdf : 1.08203685
Time spent in Reweight_scale : 4.71834898
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.49834144
Time spent in Applying_cuts : 0.336888194
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.86614132
Time spent in Other_tasks : 2.95917511
Time spent in Total : 38.3685226
Time in seconds: 62
LOG file for integration channel /P0_uxu_wpwm/all_G1_10, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
23410
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9615493614169939E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 10
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 493 0.3501E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 517 0.4070E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1364 0.1674E+02 0.0000E+00 0.7012E-02
channel 4 : 2 F 0 1264 0.1682E+02 0.0000E+00 0.7036E-02
channel 5 : 3 F 0 4831 0.6307E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 5073 0.6557E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 3 , 31570
with seed 52
Ranmar initialization seeds 5028 10919
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.804736D+02 0.804736D+02 1.00
muF1, muF1_reference: 0.804736D+02 0.804736D+02 1.00
muF2, muF2_reference: 0.804736D+02 0.804736D+02 1.00
QES, QES_reference: 0.804736D+02 0.804736D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12027042296942858
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.12027929081792810
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -9.2141865223580605E-005 OLP: -9.2141865223567161E-005
COEFFICIENT SINGLE POLE:
MadFKS: -6.4247400783599691E-005 OLP: -6.4247400712414175E-005
FINITE:
OLP: 3.2205347216193642E-003
BORN: 8.3973716172729709E-002
MOMENTA (Exyzm):
1 80.876773333708755 0.0000000000000000 0.0000000000000000 80.876773333708755 0.0000000000000000
2 80.876773333708755 -0.0000000000000000 -0.0000000000000000 -80.876773333708755 0.0000000000000000
3 80.876773333708755 -0.86889514610979945 -1.3506233522571456 -8.4414300718248825 80.418999999999997
4 80.876773333708755 0.86889514610979945 1.3506233522571456 8.4414300718248754 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -9.2141865223580605E-005 OLP: -9.2141865223567161E-005
COEFFICIENT SINGLE POLE:
MadFKS: -6.4247400783599637E-005 OLP: -6.4247400712414175E-005
ABS integral = 0.6890E+01 +/- 0.3279E-01 ( 0.476 %)
Integral = 0.6797E+01 +/- 0.3318E-01 ( 0.488 %)
Virtual = 0.7074E-02 +/- 0.1145E-01 ( 161.830 %)
Virtual ratio = -.8278E-01 +/- 0.3130E-02 ( 3.781 %)
ABS virtual = 0.1225E+00 +/- 0.1143E-01 ( 9.334 %)
Born = 0.4424E-01 +/- 0.3342E-02 ( 7.555 %)
V 2 = 0.7074E-02 +/- 0.1145E-01 ( 161.830 %)
B 2 = 0.4424E-01 +/- 0.3342E-02 ( 7.555 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6890E+01 +/- 0.3279E-01 ( 0.476 %)
accumulated results Integral = 0.6797E+01 +/- 0.3318E-01 ( 0.488 %)
accumulated results Virtual = 0.7074E-02 +/- 0.1145E-01 ( 161.830 %)
accumulated results Virtual ratio = -.8278E-01 +/- 0.3130E-02 ( 3.781 %)
accumulated results ABS virtual = 0.1225E+00 +/- 0.1143E-01 ( 9.334 %)
accumulated results Born = 0.4424E-01 +/- 0.3342E-02 ( 7.555 %)
accumulated results V 2 = 0.7074E-02 +/- 0.1145E-01 ( 161.830 %)
accumulated results B 2 = 0.4424E-01 +/- 0.3342E-02 ( 7.555 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1040 493 0.1494E+00 0.1484E+00 0.5000E-02
channel 2 : 1 T 1147 517 0.1495E+00 0.1493E+00 0.5000E-02
channel 3 : 2 T 4945 1364 0.6780E+00 0.6711E+00 0.5369E-02
channel 4 : 2 T 4861 1264 0.6500E+00 0.6398E+00 0.5000E-02
channel 5 : 3 T 18142 4831 0.2609E+01 0.2570E+01 0.5000E-02
channel 6 : 3 T 19024 5073 0.2653E+01 0.2618E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8895681452591591 +/- 3.2786938118068105E-002
Final result: 6.7966420635424738 +/- 3.3179184260533921E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 286
Stability unknown: 0
Stable PS point: 286
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 286
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 286
counters for the granny resonances
ntot 0
Time spent in Born : 0.294365078
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.56536674
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.93518591
Time spent in Integrated_CT : 1.42245626
Time spent in Virtuals : 5.31424570
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.20470381
Time spent in N1body_prefactor : 6.03760481E-02
Time spent in Adding_alphas_pdf : 1.09069490
Time spent in Reweight_scale : 4.72719240
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.51240075
Time spent in Applying_cuts : 0.336361408
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.88152218
Time spent in Other_tasks : 2.96968079
Time spent in Total : 38.3145523
Time in seconds: 62
LOG file for integration channel /P0_uxu_wpwm/all_G1_11, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
13471
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9615493614169939E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 11
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 493 0.3501E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 517 0.4070E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1364 0.1674E+02 0.0000E+00 0.7012E-02
channel 4 : 2 F 0 1264 0.1682E+02 0.0000E+00 0.7036E-02
channel 5 : 3 F 0 4831 0.6307E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 5073 0.6557E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 3 , 34727
with seed 52
Ranmar initialization seeds 5028 14076
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.805573D+02 0.805573D+02 1.00
muF1, muF1_reference: 0.805573D+02 0.805573D+02 1.00
muF2, muF2_reference: 0.805573D+02 0.805573D+02 1.00
QES, QES_reference: 0.805573D+02 0.805573D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12025120687462593
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12020696303344867
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.0290943306336921E-004 OLP: -2.0290943306336076E-004
COEFFICIENT SINGLE POLE:
MadFKS: -4.1688627014608556E-004 OLP: -4.1688627014608518E-004
FINITE:
OLP: -1.0971545124603792E-002
BORN: 0.18492201237176922
MOMENTA (Exyzm):
1 89.601926003233530 0.0000000000000000 0.0000000000000000 89.601926003233530 0.0000000000000000
2 89.601926003233530 -0.0000000000000000 -0.0000000000000000 -89.601926003233530 0.0000000000000000
3 89.601926003233530 -6.1078369196451776 -4.0116412957550693 -38.831567632097347 80.418999999999997
4 89.601926003233530 6.1078369196451776 4.0116412957550693 38.831567632097347 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.0290943306336921E-004 OLP: -2.0290943306336076E-004
COEFFICIENT SINGLE POLE:
MadFKS: -4.1688627014608551E-004 OLP: -4.1688627014608518E-004
ABS integral = 0.6851E+01 +/- 0.2855E-01 ( 0.417 %)
Integral = 0.6778E+01 +/- 0.2891E-01 ( 0.426 %)
Virtual = 0.8537E-02 +/- 0.9052E-02 ( 106.024 %)
Virtual ratio = -.8238E-01 +/- 0.2631E-02 ( 3.194 %)
ABS virtual = 0.1014E+00 +/- 0.9040E-02 ( 8.913 %)
Born = 0.4068E-01 +/- 0.2962E-02 ( 7.281 %)
V 2 = 0.8537E-02 +/- 0.9052E-02 ( 106.024 %)
B 2 = 0.4068E-01 +/- 0.2962E-02 ( 7.281 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6851E+01 +/- 0.2855E-01 ( 0.417 %)
accumulated results Integral = 0.6778E+01 +/- 0.2891E-01 ( 0.426 %)
accumulated results Virtual = 0.8537E-02 +/- 0.9052E-02 ( 106.024 %)
accumulated results Virtual ratio = -.8238E-01 +/- 0.2631E-02 ( 3.194 %)
accumulated results ABS virtual = 0.1014E+00 +/- 0.9040E-02 ( 8.913 %)
accumulated results Born = 0.4068E-01 +/- 0.2962E-02 ( 7.281 %)
accumulated results V 2 = 0.8537E-02 +/- 0.9052E-02 ( 106.024 %)
accumulated results B 2 = 0.4068E-01 +/- 0.2962E-02 ( 7.281 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 997 493 0.1392E+00 0.1391E+00 0.5000E-02
channel 2 : 1 T 1162 517 0.1388E+00 0.1386E+00 0.5000E-02
channel 3 : 2 T 4849 1364 0.6535E+00 0.6473E+00 0.5000E-02
channel 4 : 2 T 4805 1264 0.6614E+00 0.6557E+00 0.5000E-02
channel 5 : 3 T 18328 4831 0.2605E+01 0.2568E+01 0.5000E-02
channel 6 : 3 T 19004 5073 0.2653E+01 0.2629E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8513292946220021 +/- 2.8551552135088303E-002
Final result: 6.7777533327770074 +/- 2.8906618540669872E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 272
Stability unknown: 0
Stable PS point: 272
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 272
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 272
counters for the granny resonances
ntot 0
Time spent in Born : 0.283804059
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.53758097
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.92666876
Time spent in Integrated_CT : 1.41344452
Time spent in Virtuals : 5.05121422
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.20595264
Time spent in N1body_prefactor : 5.60723841E-02
Time spent in Adding_alphas_pdf : 1.06964946
Time spent in Reweight_scale : 4.57798910
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.50553012
Time spent in Applying_cuts : 0.318680316
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.92137051
Time spent in Other_tasks : 2.88195801
Time spent in Total : 37.7499123
Time in seconds: 57
LOG file for integration channel /P0_uxu_wpwm/all_G1_12, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
13478
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9615493614169939E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 12
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 493 0.3501E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 517 0.4070E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1364 0.1674E+02 0.0000E+00 0.7012E-02
channel 4 : 2 F 0 1264 0.1682E+02 0.0000E+00 0.7036E-02
channel 5 : 3 F 0 4831 0.6307E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 5073 0.6557E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 3 , 37884
with seed 52
Ranmar initialization seeds 5028 17233
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.805990D+02 0.805990D+02 1.00
muF1, muF1_reference: 0.805990D+02 0.805990D+02 1.00
muF2, muF2_reference: 0.805990D+02 0.805990D+02 1.00
QES, QES_reference: 0.805990D+02 0.805990D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12024164163318463
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.11913581862087522
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -4.1946641578181743E-005 OLP: -4.1946641578181635E-005
COEFFICIENT SINGLE POLE:
MadFKS: 4.1016869332227761E-005 OLP: 4.1016869332300118E-005
FINITE:
OLP: -1.3369323986307507E-003
BORN: 3.8228175278830948E-002
MOMENTA (Exyzm):
1 86.150682780568673 0.0000000000000000 0.0000000000000000 86.150682780568673 0.0000000000000000
2 86.150682780568673 -0.0000000000000000 -0.0000000000000000 -86.150682780568673 0.0000000000000000
3 86.150682780568673 -28.902063639399035 -5.2166904221233761 9.6011166528704806 80.418999999999997
4 86.150682780568673 28.902063639399035 5.2166904221233761 -9.6011166528704806 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -4.1946641578181743E-005 OLP: -4.1946641578181635E-005
COEFFICIENT SINGLE POLE:
MadFKS: 4.1016869332227761E-005 OLP: 4.1016869332300118E-005
ABS integral = 0.6824E+01 +/- 0.2787E-01 ( 0.408 %)
Integral = 0.6727E+01 +/- 0.2834E-01 ( 0.421 %)
Virtual = 0.2228E-02 +/- 0.1091E-01 ( 489.926 %)
Virtual ratio = -.8126E-01 +/- 0.3935E-02 ( 4.843 %)
ABS virtual = 0.1156E+00 +/- 0.1090E-01 ( 9.433 %)
Born = 0.3962E-01 +/- 0.2869E-02 ( 7.240 %)
V 2 = 0.2228E-02 +/- 0.1091E-01 ( 489.926 %)
B 2 = 0.3962E-01 +/- 0.2869E-02 ( 7.240 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6824E+01 +/- 0.2787E-01 ( 0.408 %)
accumulated results Integral = 0.6727E+01 +/- 0.2834E-01 ( 0.421 %)
accumulated results Virtual = 0.2228E-02 +/- 0.1091E-01 ( 489.926 %)
accumulated results Virtual ratio = -.8126E-01 +/- 0.3935E-02 ( 4.843 %)
accumulated results ABS virtual = 0.1156E+00 +/- 0.1090E-01 ( 9.433 %)
accumulated results Born = 0.3962E-01 +/- 0.2869E-02 ( 7.240 %)
accumulated results V 2 = 0.2228E-02 +/- 0.1091E-01 ( 489.926 %)
accumulated results B 2 = 0.3962E-01 +/- 0.2869E-02 ( 7.240 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 985 493 0.1382E+00 0.1381E+00 0.5000E-02
channel 2 : 1 T 1173 517 0.1529E+00 0.1458E+00 0.5000E-02
channel 3 : 2 T 4792 1364 0.6527E+00 0.6421E+00 0.5000E-02
channel 4 : 2 T 4850 1264 0.6737E+00 0.6687E+00 0.5000E-02
channel 5 : 3 T 18322 4831 0.2575E+01 0.2550E+01 0.5000E-02
channel 6 : 3 T 19035 5073 0.2632E+01 0.2583E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8239729863381271 +/- 2.7867737315056523E-002
Final result: 6.7272908753253207 +/- 2.8341950428551400E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 268
Stability unknown: 0
Stable PS point: 268
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 268
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 268
counters for the granny resonances
ntot 0
Time spent in Born : 0.285412848
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.56454611
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.93724561
Time spent in Integrated_CT : 1.41771793
Time spent in Virtuals : 4.94632626
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.22206068
Time spent in N1body_prefactor : 5.67817241E-02
Time spent in Adding_alphas_pdf : 1.07543290
Time spent in Reweight_scale : 4.57641315
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.50579417
Time spent in Applying_cuts : 0.313724995
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.90238762
Time spent in Other_tasks : 2.88199997
Time spent in Total : 37.6858482
Time in seconds: 57
LOG file for integration channel /P0_uxu_wpwm/all_G1_13, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
13472
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9615493614169939E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 13
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 493 0.3501E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 517 0.4070E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1364 0.1674E+02 0.0000E+00 0.7012E-02
channel 4 : 2 F 0 1264 0.1682E+02 0.0000E+00 0.7036E-02
channel 5 : 3 F 0 4831 0.6307E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 5073 0.6557E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 3 , 41041
with seed 52
Ranmar initialization seeds 5028 20390
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.816003D+02 0.816003D+02 1.00
muF1, muF1_reference: 0.816003D+02 0.816003D+02 1.00
muF2, muF2_reference: 0.816003D+02 0.816003D+02 1.00
QES, QES_reference: 0.816003D+02 0.816003D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12001380870375847
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12011048029823528
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.4148081543041178E-004 OLP: -2.4148081543040633E-004
COEFFICIENT SINGLE POLE:
MadFKS: -5.4293622413505648E-004 OLP: -5.4293622413496205E-004
FINITE:
OLP: -1.4192152041197895E-002
BORN: 0.22007413684223148
MOMENTA (Exyzm):
1 94.158983575581033 0.0000000000000000 0.0000000000000000 94.158983575581033 0.0000000000000000
2 94.158983575581033 -0.0000000000000000 -0.0000000000000000 -94.158983575581033 0.0000000000000000
3 94.158983575581033 -10.960439541939509 -1.3334033862241887 -47.715714680214468 80.418999999999997
4 94.158983575581033 10.960439541939509 1.3334033862241887 47.715714680214468 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.4148081543041178E-004 OLP: -2.4148081543040633E-004
COEFFICIENT SINGLE POLE:
MadFKS: -5.4293622413505648E-004 OLP: -5.4293622413496205E-004
ABS integral = 0.6860E+01 +/- 0.2873E-01 ( 0.419 %)
Integral = 0.6758E+01 +/- 0.2922E-01 ( 0.432 %)
Virtual = -.1666E-02 +/- 0.1077E-01 ( 646.670 %)
Virtual ratio = -.8362E-01 +/- 0.3451E-02 ( 4.127 %)
ABS virtual = 0.1174E+00 +/- 0.1076E-01 ( 9.169 %)
Born = 0.3973E-01 +/- 0.3075E-02 ( 7.739 %)
V 2 = -.1666E-02 +/- 0.1077E-01 ( 646.670 %)
B 2 = 0.3973E-01 +/- 0.3075E-02 ( 7.739 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6860E+01 +/- 0.2873E-01 ( 0.419 %)
accumulated results Integral = 0.6758E+01 +/- 0.2922E-01 ( 0.432 %)
accumulated results Virtual = -.1666E-02 +/- 0.1077E-01 ( 646.670 %)
accumulated results Virtual ratio = -.8362E-01 +/- 0.3451E-02 ( 4.127 %)
accumulated results ABS virtual = 0.1174E+00 +/- 0.1076E-01 ( 9.169 %)
accumulated results Born = 0.3973E-01 +/- 0.3075E-02 ( 7.739 %)
accumulated results V 2 = -.1666E-02 +/- 0.1077E-01 ( 646.670 %)
accumulated results B 2 = 0.3973E-01 +/- 0.3075E-02 ( 7.739 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1016 493 0.1485E+00 0.1484E+00 0.5000E-02
channel 2 : 1 T 1212 517 0.1587E+00 0.1553E+00 0.5000E-02
channel 3 : 2 T 4923 1364 0.6766E+00 0.6715E+00 0.5000E-02
channel 4 : 2 T 4836 1264 0.6695E+00 0.6504E+00 0.5493E-02
channel 5 : 3 T 18183 4831 0.2567E+01 0.2532E+01 0.5000E-02
channel 6 : 3 T 18985 5073 0.2639E+01 0.2600E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8600134807034721 +/- 2.8732811630159266E-002
Final result: 6.7579016179254863 +/- 2.9220973463251795E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 264
Stability unknown: 0
Stable PS point: 264
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 264
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 264
counters for the granny resonances
ntot 0
Time spent in Born : 0.288495541
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.56098938
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.93475223
Time spent in Integrated_CT : 1.42008495
Time spent in Virtuals : 4.88490105
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.22299099
Time spent in N1body_prefactor : 5.69279343E-02
Time spent in Adding_alphas_pdf : 1.08392429
Time spent in Reweight_scale : 4.59904432
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.53073287
Time spent in Applying_cuts : 0.325772762
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.87865305
Time spent in Other_tasks : 2.94057846
Time spent in Total : 37.7278519
Time in seconds: 57
LOG file for integration channel /P0_uxu_wpwm/all_G1_14, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
13465
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9615493614169939E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 14
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 493 0.3501E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 517 0.4070E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1364 0.1674E+02 0.0000E+00 0.7012E-02
channel 4 : 2 F 0 1264 0.1682E+02 0.0000E+00 0.7036E-02
channel 5 : 3 F 0 4831 0.6307E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 5073 0.6557E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 3 , 44198
with seed 52
Ranmar initialization seeds 5028 23547
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.806271D+02 0.806271D+02 1.00
muF1, muF1_reference: 0.806271D+02 0.806271D+02 1.00
muF2, muF2_reference: 0.806271D+02 0.806271D+02 1.00
QES, QES_reference: 0.806271D+02 0.806271D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12023519709716531
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 2: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
REAL 1: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11922179839891796
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -4.0123671440713049E-005 OLP: -4.0123671440712744E-005
COEFFICIENT SINGLE POLE:
MadFKS: 4.4315088331530199E-005 OLP: 4.4315088331468942E-005
FINITE:
OLP: -1.2325775676466965E-003
BORN: 3.6566806947034007E-002
MOMENTA (Exyzm):
1 85.976841991013529 0.0000000000000000 0.0000000000000000 85.976841991013529 0.0000000000000000
2 85.976841991013529 -0.0000000000000000 -0.0000000000000000 -85.976841991013529 0.0000000000000000
3 85.976841991013529 -3.2923908250189897 -27.975913143935571 11.459068206709134 80.418999999999997
4 85.976841991013529 3.2923908250189897 27.975913143935571 -11.459068206709134 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -4.0123671440713049E-005 OLP: -4.0123671440712744E-005
COEFFICIENT SINGLE POLE:
MadFKS: 4.4315088331530185E-005 OLP: 4.4315088331468942E-005
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6920E+01 +/- 0.4088E-01 ( 0.591 %)
Integral = 0.6851E+01 +/- 0.4111E-01 ( 0.600 %)
Virtual = 0.4116E-01 +/- 0.1479E-01 ( 35.939 %)
Virtual ratio = -.7941E-01 +/- 0.3268E-02 ( 4.115 %)
ABS virtual = 0.1312E+00 +/- 0.1478E-01 ( 11.263 %)
Born = 0.4563E-01 +/- 0.4166E-02 ( 9.131 %)
V 2 = 0.4116E-01 +/- 0.1479E-01 ( 35.939 %)
B 2 = 0.4563E-01 +/- 0.4166E-02 ( 9.131 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6920E+01 +/- 0.4088E-01 ( 0.591 %)
accumulated results Integral = 0.6851E+01 +/- 0.4111E-01 ( 0.600 %)
accumulated results Virtual = 0.4116E-01 +/- 0.1479E-01 ( 35.939 %)
accumulated results Virtual ratio = -.7941E-01 +/- 0.3268E-02 ( 4.115 %)
accumulated results ABS virtual = 0.1312E+00 +/- 0.1478E-01 ( 11.263 %)
accumulated results Born = 0.4563E-01 +/- 0.4166E-02 ( 9.131 %)
accumulated results V 2 = 0.4116E-01 +/- 0.1479E-01 ( 35.939 %)
accumulated results B 2 = 0.4563E-01 +/- 0.4166E-02 ( 9.131 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 978 493 0.1434E+00 0.1428E+00 0.5000E-02
channel 2 : 1 T 1151 517 0.1624E+00 0.1600E+00 0.6615E-02
channel 3 : 2 T 4814 1364 0.6583E+00 0.6459E+00 0.5000E-02
channel 4 : 2 T 4875 1264 0.6668E+00 0.6542E+00 0.5000E-02
channel 5 : 3 T 18455 4831 0.2652E+01 0.2630E+01 0.5000E-02
channel 6 : 3 T 18874 5073 0.2637E+01 0.2618E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.9198960260081535 +/- 4.0877857376454343E-002
Final result: 6.8507888043379310 +/- 4.1113996025536365E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 279
Stability unknown: 0
Stable PS point: 279
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 279
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 279
counters for the granny resonances
ntot 0
Time spent in Born : 0.286540985
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.54628468
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.90277624
Time spent in Integrated_CT : 1.41539812
Time spent in Virtuals : 5.13100624
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.19963026
Time spent in N1body_prefactor : 5.72323948E-02
Time spent in Adding_alphas_pdf : 1.08608890
Time spent in Reweight_scale : 4.59053612
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.48620808
Time spent in Applying_cuts : 0.321406573
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.86574125
Time spent in Other_tasks : 2.92190170
Time spent in Total : 37.8107491
Time in seconds: 63
LOG file for integration channel /P0_uxu_wpwm/all_G1_15, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
13474
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9615493614169939E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 15
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 493 0.3501E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 517 0.4070E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1364 0.1674E+02 0.0000E+00 0.7012E-02
channel 4 : 2 F 0 1264 0.1682E+02 0.0000E+00 0.7036E-02
channel 5 : 3 F 0 4831 0.6307E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 5073 0.6557E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 3 , 47355
with seed 52
Ranmar initialization seeds 5028 26704
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.804749D+02 0.804749D+02 1.00
muF1, muF1_reference: 0.804749D+02 0.804749D+02 1.00
muF2, muF2_reference: 0.804749D+02 0.804749D+02 1.00
QES, QES_reference: 0.804749D+02 0.804749D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12027012514421713
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.12022169086948178
==========================================================================================
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{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.2263435864768125E-004 OLP: -2.2263435864767925E-004
COEFFICIENT SINGLE POLE:
MadFKS: -4.8325686786585242E-004 OLP: -4.8325686786620945E-004
FINITE:
OLP: -1.2124757752899704E-002
BORN: 0.20289837196169141
MOMENTA (Exyzm):
1 91.345063636502630 0.0000000000000000 0.0000000000000000 91.345063636502630 0.0000000000000000
2 91.345063636502630 -0.0000000000000000 -0.0000000000000000 -91.345063636502630 0.0000000000000000
3 91.345063636502630 -6.1882357805794159 -2.1723728440154666 -42.821625656988502 80.418999999999997
4 91.345063636502630 6.1882357805794159 2.1723728440154666 42.821625656988502 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.2263435864768125E-004 OLP: -2.2263435864767925E-004
COEFFICIENT SINGLE POLE:
MadFKS: -4.8325686786585237E-004 OLP: -4.8325686786620945E-004
REAL 3: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6834E+01 +/- 0.2970E-01 ( 0.435 %)
Integral = 0.6755E+01 +/- 0.3006E-01 ( 0.445 %)
Virtual = 0.2951E-02 +/- 0.1263E-01 ( 428.100 %)
Virtual ratio = -.7616E-01 +/- 0.3010E-02 ( 3.952 %)
ABS virtual = 0.1052E+00 +/- 0.1262E-01 ( 11.996 %)
Born = 0.3883E-01 +/- 0.2911E-02 ( 7.497 %)
V 2 = 0.2951E-02 +/- 0.1263E-01 ( 428.100 %)
B 2 = 0.3883E-01 +/- 0.2911E-02 ( 7.497 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6834E+01 +/- 0.2970E-01 ( 0.435 %)
accumulated results Integral = 0.6755E+01 +/- 0.3006E-01 ( 0.445 %)
accumulated results Virtual = 0.2951E-02 +/- 0.1263E-01 ( 428.100 %)
accumulated results Virtual ratio = -.7616E-01 +/- 0.3010E-02 ( 3.952 %)
accumulated results ABS virtual = 0.1052E+00 +/- 0.1262E-01 ( 11.996 %)
accumulated results Born = 0.3883E-01 +/- 0.2911E-02 ( 7.497 %)
accumulated results V 2 = 0.2951E-02 +/- 0.1263E-01 ( 428.100 %)
accumulated results B 2 = 0.3883E-01 +/- 0.2911E-02 ( 7.497 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1014 493 0.1453E+00 0.1452E+00 0.5000E-02
channel 2 : 1 T 1230 517 0.1565E+00 0.1513E+00 0.5000E-02
channel 3 : 2 T 4817 1364 0.6584E+00 0.6444E+00 0.5000E-02
channel 4 : 2 T 4873 1264 0.6756E+00 0.6695E+00 0.5000E-02
channel 5 : 3 T 18285 4831 0.2557E+01 0.2529E+01 0.5000E-02
channel 6 : 3 T 18933 5073 0.2642E+01 0.2616E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8342862462262195 +/- 2.9698295038624284E-002
Final result: 6.7552601929827771 +/- 3.0063896184296852E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 253
Stability unknown: 0
Stable PS point: 253
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 253
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 253
counters for the granny resonances
ntot 0
Time spent in Born : 0.284272194
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.56970024
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.91963995
Time spent in Integrated_CT : 1.42156601
Time spent in Virtuals : 4.67077923
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.22220516
Time spent in N1body_prefactor : 5.84249198E-02
Time spent in Adding_alphas_pdf : 1.08045542
Time spent in Reweight_scale : 4.59844112
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.52120900
Time spent in Applying_cuts : 0.321042180
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.91124582
Time spent in Other_tasks : 2.93750763
Time spent in Total : 37.5164871
Time in seconds: 57
LOG file for integration channel /P0_uxu_wpwm/all_G1_16, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
13473
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9615493614169939E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 16
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 493 0.3501E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 517 0.4070E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1364 0.1674E+02 0.0000E+00 0.7012E-02
channel 4 : 2 F 0 1264 0.1682E+02 0.0000E+00 0.7036E-02
channel 5 : 3 F 0 4831 0.6307E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 5073 0.6557E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 3 , 50512
with seed 52
Ranmar initialization seeds 5028 29861
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.937461D+02 0.937461D+02 1.00
muF1, muF1_reference: 0.937461D+02 0.937461D+02 1.00
muF2, muF2_reference: 0.937461D+02 0.937461D+02 1.00
QES, QES_reference: 0.937461D+02 0.937461D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.11751190462108632
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12026487887617245
==========================================================================================
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==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.0549237711635951E-004 OLP: -1.0549237711635508E-004
COEFFICIENT SINGLE POLE:
MadFKS: -1.0251563339089514E-004 OLP: -1.0251563338792727E-004
FINITE:
OLP: -4.8850597757224361E-004
BORN: 9.6140738120077507E-002
MOMENTA (Exyzm):
1 81.545912872218224 0.0000000000000000 0.0000000000000000 81.545912872218224 0.0000000000000000
2 81.545912872218224 -0.0000000000000000 -0.0000000000000000 -81.545912872218224 0.0000000000000000
3 81.545912872218224 -2.9543080622059392 -1.9851823904794841 -13.032707313276177 80.418999999999997
4 81.545912872218224 2.9543080622059392 1.9851823904794841 13.032707313276170 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.0549237711635951E-004 OLP: -1.0549237711635508E-004
COEFFICIENT SINGLE POLE:
MadFKS: -1.0251563339089514E-004 OLP: -1.0251563338792727E-004
ABS integral = 0.6871E+01 +/- 0.3386E-01 ( 0.493 %)
Integral = 0.6789E+01 +/- 0.3420E-01 ( 0.504 %)
Virtual = -.5678E-02 +/- 0.1016E-01 ( 178.898 %)
Virtual ratio = -.8217E-01 +/- 0.2590E-02 ( 3.152 %)
ABS virtual = 0.9689E-01 +/- 0.1015E-01 ( 10.474 %)
Born = 0.3788E-01 +/- 0.2812E-02 ( 7.423 %)
V 2 = -.5678E-02 +/- 0.1016E-01 ( 178.898 %)
B 2 = 0.3788E-01 +/- 0.2812E-02 ( 7.423 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6871E+01 +/- 0.3386E-01 ( 0.493 %)
accumulated results Integral = 0.6789E+01 +/- 0.3420E-01 ( 0.504 %)
accumulated results Virtual = -.5678E-02 +/- 0.1016E-01 ( 178.898 %)
accumulated results Virtual ratio = -.8217E-01 +/- 0.2590E-02 ( 3.152 %)
accumulated results ABS virtual = 0.9689E-01 +/- 0.1015E-01 ( 10.474 %)
accumulated results Born = 0.3788E-01 +/- 0.2812E-02 ( 7.423 %)
accumulated results V 2 = -.5678E-02 +/- 0.1016E-01 ( 178.898 %)
accumulated results B 2 = 0.3788E-01 +/- 0.2812E-02 ( 7.423 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 968 493 0.1320E+00 0.1314E+00 0.5000E-02
channel 2 : 1 T 1183 517 0.1557E+00 0.1551E+00 0.5000E-02
channel 3 : 2 T 4849 1364 0.6639E+00 0.6406E+00 0.5858E-02
channel 4 : 2 T 4920 1264 0.6802E+00 0.6725E+00 0.5000E-02
channel 5 : 3 T 18329 4831 0.2623E+01 0.2596E+01 0.5000E-02
channel 6 : 3 T 18907 5073 0.2616E+01 0.2593E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8706797518474696 +/- 3.3864798919806961E-002
Final result: 6.7888492475637854 +/- 3.4198912502335616E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 255
Stability unknown: 0
Stable PS point: 255
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 255
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 255
counters for the granny resonances
ntot 0
Time spent in Born : 0.287743330
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.57904959
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.92881680
Time spent in Integrated_CT : 1.41845417
Time spent in Virtuals : 4.68905830
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.21490526
Time spent in N1body_prefactor : 5.83012104E-02
Time spent in Adding_alphas_pdf : 1.07844079
Time spent in Reweight_scale : 4.60802698
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.52612221
Time spent in Applying_cuts : 0.327648342
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.90199375
Time spent in Other_tasks : 2.91400528
Time spent in Total : 37.5325661
Time in seconds: 57
LOG file for integration channel /P0_uxu_wpwm/all_G1_17, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
13466
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9615493614169939E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 17
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 493 0.3501E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 517 0.4070E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1364 0.1674E+02 0.0000E+00 0.7012E-02
channel 4 : 2 F 0 1264 0.1682E+02 0.0000E+00 0.7036E-02
channel 5 : 3 F 0 4831 0.6307E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 5073 0.6557E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 3 , 53669
with seed 52
Ranmar initialization seeds 5028 2937
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.808351D+02 0.808351D+02 1.00
muF1, muF1_reference: 0.808351D+02 0.808351D+02 1.00
muF2, muF2_reference: 0.808351D+02 0.808351D+02 1.00
QES, QES_reference: 0.808351D+02 0.808351D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12018757009304352
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
REAL 3: keeping split order 1
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11613206411902055
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.2392865470282583E-005 OLP: -1.2392865470282564E-005
COEFFICIENT SINGLE POLE:
MadFKS: 5.6855137882852573E-005 OLP: 5.6855137882946255E-005
FINITE:
OLP: -8.6272047647711165E-004
BORN: 1.1294268517824689E-002
MOMENTA (Exyzm):
1 111.58166441217428 0.0000000000000000 0.0000000000000000 111.58166441217428 0.0000000000000000
2 111.58166441217428 -0.0000000000000000 -0.0000000000000000 -111.58166441217428 0.0000000000000000
3 111.58166441217428 -31.790962036179710 -53.086718891070888 46.415377647776154 80.418999999999997
4 111.58166441217428 31.790962036179710 53.086718891070888 -46.415377647776154 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.2392865470282583E-005 OLP: -1.2392865470282564E-005
COEFFICIENT SINGLE POLE:
MadFKS: 5.6855137882852566E-005 OLP: 5.6855137882946255E-005
ABS integral = 0.6801E+01 +/- 0.2969E-01 ( 0.436 %)
Integral = 0.6722E+01 +/- 0.3005E-01 ( 0.447 %)
Virtual = -.1575E-02 +/- 0.1013E-01 ( 643.467 %)
Virtual ratio = -.8426E-01 +/- 0.4838E-02 ( 5.742 %)
ABS virtual = 0.9729E-01 +/- 0.1012E-01 ( 10.403 %)
Born = 0.3774E-01 +/- 0.3049E-02 ( 8.079 %)
V 2 = -.1575E-02 +/- 0.1013E-01 ( 643.467 %)
B 2 = 0.3774E-01 +/- 0.3049E-02 ( 8.079 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6801E+01 +/- 0.2969E-01 ( 0.436 %)
accumulated results Integral = 0.6722E+01 +/- 0.3005E-01 ( 0.447 %)
accumulated results Virtual = -.1575E-02 +/- 0.1013E-01 ( 643.467 %)
accumulated results Virtual ratio = -.8426E-01 +/- 0.4838E-02 ( 5.742 %)
accumulated results ABS virtual = 0.9729E-01 +/- 0.1012E-01 ( 10.403 %)
accumulated results Born = 0.3774E-01 +/- 0.3049E-02 ( 8.079 %)
accumulated results V 2 = -.1575E-02 +/- 0.1013E-01 ( 643.467 %)
accumulated results B 2 = 0.3774E-01 +/- 0.3049E-02 ( 8.079 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 982 493 0.1463E+00 0.1426E+00 0.5000E-02
channel 2 : 1 T 1104 517 0.1375E+00 0.1350E+00 0.5000E-02
channel 3 : 2 T 4840 1364 0.6490E+00 0.6332E+00 0.5000E-02
channel 4 : 2 T 4945 1264 0.6807E+00 0.6703E+00 0.5000E-02
channel 5 : 3 T 18343 4831 0.2587E+01 0.2566E+01 0.5000E-02
channel 6 : 3 T 18940 5073 0.2601E+01 0.2575E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8011704903375758 +/- 2.9686278926152086E-002
Final result: 6.7217460563355189 +/- 3.0052067475041456E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 246
Stability unknown: 0
Stable PS point: 246
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 246
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 246
counters for the granny resonances
ntot 0
Time spent in Born : 0.287898898
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.56230021
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.92732608
Time spent in Integrated_CT : 1.41237354
Time spent in Virtuals : 4.56687927
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.20083189
Time spent in N1body_prefactor : 5.71475178E-02
Time spent in Adding_alphas_pdf : 1.07700336
Time spent in Reweight_scale : 4.55822945
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.52271938
Time spent in Applying_cuts : 0.318508625
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.85929251
Time spent in Other_tasks : 2.90362549
Time spent in Total : 37.2541351
Time in seconds: 57
LOG file for integration channel /P0_uxu_wpwm/all_G1_18, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
13477
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9615493614169939E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 18
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 493 0.3501E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 517 0.4070E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1364 0.1674E+02 0.0000E+00 0.7012E-02
channel 4 : 2 F 0 1264 0.1682E+02 0.0000E+00 0.7036E-02
channel 5 : 3 F 0 4831 0.6307E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 5073 0.6557E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 3 , 56826
with seed 52
Ranmar initialization seeds 5028 6094
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.811258D+02 0.811258D+02 1.00
muF1, muF1_reference: 0.811258D+02 0.811258D+02 1.00
muF2, muF2_reference: 0.811258D+02 0.811258D+02 1.00
QES, QES_reference: 0.811258D+02 0.811258D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12012130182024296
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.12024505607009464
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.8443729319739103E-004 OLP: -1.8443729319738753E-004
COEFFICIENT SINGLE POLE:
MadFKS: -3.5538352374223618E-004 OLP: -3.5538352374200844E-004
FINITE:
OLP: -9.3926654895126974E-003
BORN: 0.16808738213669941
MOMENTA (Exyzm):
1 87.587932843459200 0.0000000000000000 0.0000000000000000 87.587932843459200 0.0000000000000000
2 87.587932843459200 -0.0000000000000000 -0.0000000000000000 -87.587932843459200 0.0000000000000000
3 87.587932843459200 -5.1361757140689281 -0.44282934417812370 -34.319877913484241 80.418999999999997
4 87.587932843459200 5.1361757140689281 0.44282934417812370 34.319877913484241 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.8443729319739103E-004 OLP: -1.8443729319738753E-004
COEFFICIENT SINGLE POLE:
MadFKS: -3.5538352374223613E-004 OLP: -3.5538352374200844E-004
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6882E+01 +/- 0.3678E-01 ( 0.534 %)
Integral = 0.6813E+01 +/- 0.3704E-01 ( 0.544 %)
Virtual = 0.4083E-02 +/- 0.9878E-02 ( 241.948 %)
Virtual ratio = -.8209E-01 +/- 0.3271E-02 ( 3.985 %)
ABS virtual = 0.8913E-01 +/- 0.9869E-02 ( 11.074 %)
Born = 0.3528E-01 +/- 0.2820E-02 ( 7.993 %)
V 2 = 0.4083E-02 +/- 0.9878E-02 ( 241.948 %)
B 2 = 0.3528E-01 +/- 0.2820E-02 ( 7.993 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6882E+01 +/- 0.3678E-01 ( 0.534 %)
accumulated results Integral = 0.6813E+01 +/- 0.3704E-01 ( 0.544 %)
accumulated results Virtual = 0.4083E-02 +/- 0.9878E-02 ( 241.948 %)
accumulated results Virtual ratio = -.8209E-01 +/- 0.3271E-02 ( 3.985 %)
accumulated results ABS virtual = 0.8913E-01 +/- 0.9869E-02 ( 11.074 %)
accumulated results Born = 0.3528E-01 +/- 0.2820E-02 ( 7.993 %)
accumulated results V 2 = 0.4083E-02 +/- 0.9878E-02 ( 241.948 %)
accumulated results B 2 = 0.3528E-01 +/- 0.2820E-02 ( 7.993 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1052 493 0.1583E+00 0.1570E+00 0.5000E-02
channel 2 : 1 T 1165 517 0.1449E+00 0.1445E+00 0.5000E-02
channel 3 : 2 T 4837 1364 0.6610E+00 0.6540E+00 0.5000E-02
channel 4 : 2 T 4855 1264 0.6766E+00 0.6712E+00 0.5000E-02
channel 5 : 3 T 18297 4831 0.2625E+01 0.2599E+01 0.5000E-02
channel 6 : 3 T 18943 5073 0.2615E+01 0.2588E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8815249885397352 +/- 3.6779235794012356E-002
Final result: 6.8134771628229709 +/- 3.7036091144136633E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 234
Stability unknown: 0
Stable PS point: 234
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 234
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 234
counters for the granny resonances
ntot 0
Time spent in Born : 0.284833461
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.57748413
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.93336034
Time spent in Integrated_CT : 1.43430805
Time spent in Virtuals : 4.29307175
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 4.22304201
Time spent in N1body_prefactor : 5.68980873E-02
Time spent in Adding_alphas_pdf : 1.08053088
Time spent in Reweight_scale : 4.58880806
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.51500893
Time spent in Applying_cuts : 0.321242005
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.87243271
Time spent in Other_tasks : 2.89835739
Time spent in Total : 37.0793762
Time in seconds: 57
LOG file for integration channel /P0_uxu_wpwm/all_G1_19, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
35444
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9615493614169939E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 19
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 493 0.3501E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 517 0.4070E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1364 0.1674E+02 0.0000E+00 0.7012E-02
channel 4 : 2 F 0 1264 0.1682E+02 0.0000E+00 0.7036E-02
channel 5 : 3 F 0 4831 0.6307E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 5073 0.6557E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 3 , 59983
with seed 52
Ranmar initialization seeds 5028 9251
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.804567D+02 0.804567D+02 1.00
muF1, muF1_reference: 0.804567D+02 0.804567D+02 1.00
muF2, muF2_reference: 0.804567D+02 0.804567D+02 1.00
QES, QES_reference: 0.804567D+02 0.804567D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12027429959676605
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11958687188737911
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -3.5239458389776522E-004 OLP: -3.5239458389776257E-004
COEFFICIENT SINGLE POLE:
MadFKS: -8.6069795924371170E-004 OLP: -8.6069795924370259E-004
FINITE:
OLP: -2.3742993090269650E-002
BORN: 0.32115567334385886
MOMENTA (Exyzm):
1 109.84346738688433 0.0000000000000000 0.0000000000000000 109.84346738688433 0.0000000000000000
2 109.84346738688433 -0.0000000000000000 -0.0000000000000000 -109.84346738688433 0.0000000000000000
3 109.84346738688433 -22.131028889893905 -4.3259958136648065 -71.343360497444735 80.418999999999997
4 109.84346738688433 22.131028889893905 4.3259958136648065 71.343360497444735 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -3.5239458389776522E-004 OLP: -3.5239458389776257E-004
COEFFICIENT SINGLE POLE:
MadFKS: -8.6069795924371170E-004 OLP: -8.6069795924370259E-004
ABS integral = 0.6874E+01 +/- 0.3414E-01 ( 0.497 %)
Integral = 0.6765E+01 +/- 0.3458E-01 ( 0.511 %)
Virtual = -.3326E-02 +/- 0.1272E-01 ( 382.304 %)
Virtual ratio = -.8766E-01 +/- 0.5861E-02 ( 6.686 %)
ABS virtual = 0.1278E+00 +/- 0.1270E-01 ( 9.943 %)
Born = 0.3926E-01 +/- 0.2797E-02 ( 7.123 %)
V 2 = -.3326E-02 +/- 0.1272E-01 ( 382.304 %)
B 2 = 0.3926E-01 +/- 0.2797E-02 ( 7.123 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6874E+01 +/- 0.3414E-01 ( 0.497 %)
accumulated results Integral = 0.6765E+01 +/- 0.3458E-01 ( 0.511 %)
accumulated results Virtual = -.3326E-02 +/- 0.1272E-01 ( 382.304 %)
accumulated results Virtual ratio = -.8766E-01 +/- 0.5861E-02 ( 6.686 %)
accumulated results ABS virtual = 0.1278E+00 +/- 0.1270E-01 ( 9.943 %)
accumulated results Born = 0.3926E-01 +/- 0.2797E-02 ( 7.123 %)
accumulated results V 2 = -.3326E-02 +/- 0.1272E-01 ( 382.304 %)
accumulated results B 2 = 0.3926E-01 +/- 0.2797E-02 ( 7.123 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 996 493 0.1565E+00 0.1503E+00 0.5000E-02
channel 2 : 1 T 1157 517 0.1426E+00 0.1422E+00 0.5000E-02
channel 3 : 2 T 4830 1364 0.6651E+00 0.6534E+00 0.5000E-02
channel 4 : 2 T 4800 1264 0.6626E+00 0.6482E+00 0.5000E-02
channel 5 : 3 T 18223 4831 0.2598E+01 0.2561E+01 0.5000E-02
channel 6 : 3 T 19149 5073 0.2650E+01 0.2610E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8744486653884449 +/- 3.4140153814064267E-002
Final result: 6.7647621118651955 +/- 3.4583046047784866E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 266
Stability unknown: 0
Stable PS point: 266
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 266
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 266
counters for the granny resonances
ntot 0
Time spent in Born : 0.144982636
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 3.17574072
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 0.949781060
Time spent in Integrated_CT : 0.665091515
Time spent in Virtuals : 2.23685837
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 2.12030983
Time spent in N1body_prefactor : 3.82271335E-02
Time spent in Adding_alphas_pdf : 0.500392973
Time spent in Reweight_scale : 2.62151551
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 0.721340895
Time spent in Applying_cuts : 0.183145493
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 3.83804917
Time spent in Other_tasks : 1.50477600
Time spent in Total : 18.7002125
Time in seconds: 24
LOG file for integration channel /P0_uxu_wpwm/all_G1_20, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
15118
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9615493614169939E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 20
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 493 0.3501E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 517 0.4070E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1364 0.1674E+02 0.0000E+00 0.7012E-02
channel 4 : 2 F 0 1264 0.1682E+02 0.0000E+00 0.7036E-02
channel 5 : 3 F 0 4831 0.6307E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 5073 0.6557E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 3 , 63140
with seed 52
Ranmar initialization seeds 5028 12408
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.806480D+02 0.806480D+02 1.00
muF1, muF1_reference: 0.806480D+02 0.806480D+02 1.00
muF2, muF2_reference: 0.806480D+02 0.806480D+02 1.00
QES, QES_reference: 0.806480D+02 0.806480D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12023039385893280
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11673094604153651
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -4.0007326004515218E-005 OLP: -4.0007326004515130E-005
COEFFICIENT SINGLE POLE:
MadFKS: 3.5684502356090556E-005 OLP: 3.5684502356089865E-005
FINITE:
OLP: -2.0361627892137224E-003
BORN: 3.6460775246747040E-002
MOMENTA (Exyzm):
1 98.046377011705943 0.0000000000000000 0.0000000000000000 98.046377011705943 0.0000000000000000
2 98.046377011705943 -0.0000000000000000 -0.0000000000000000 -98.046377011705943 0.0000000000000000
3 98.046377011705943 -11.535658755532637 -54.840595196262775 -2.3052504673295418 80.418999999999997
4 98.046377011705943 11.535658755532637 54.840595196262775 2.3052504673295418 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -4.0007326004515218E-005 OLP: -4.0007326004515130E-005
COEFFICIENT SINGLE POLE:
MadFKS: 3.5684502356090529E-005 OLP: 3.5684502356089865E-005
REAL 3: keeping split order 1
ABS integral = 0.6854E+01 +/- 0.3320E-01 ( 0.484 %)
Integral = 0.6740E+01 +/- 0.3367E-01 ( 0.500 %)
Virtual = -.9994E-02 +/- 0.1588E-01 ( 158.942 %)
Virtual ratio = -.8340E-01 +/- 0.4099E-02 ( 4.915 %)
ABS virtual = 0.1215E+00 +/- 0.1588E-01 ( 13.063 %)
Born = 0.3636E-01 +/- 0.3037E-02 ( 8.352 %)
V 2 = -.9994E-02 +/- 0.1588E-01 ( 158.942 %)
B 2 = 0.3636E-01 +/- 0.3037E-02 ( 8.352 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6854E+01 +/- 0.3320E-01 ( 0.484 %)
accumulated results Integral = 0.6740E+01 +/- 0.3367E-01 ( 0.500 %)
accumulated results Virtual = -.9994E-02 +/- 0.1588E-01 ( 158.942 %)
accumulated results Virtual ratio = -.8340E-01 +/- 0.4099E-02 ( 4.915 %)
accumulated results ABS virtual = 0.1215E+00 +/- 0.1588E-01 ( 13.063 %)
accumulated results Born = 0.3636E-01 +/- 0.3037E-02 ( 8.352 %)
accumulated results V 2 = -.9994E-02 +/- 0.1588E-01 ( 158.942 %)
accumulated results B 2 = 0.3636E-01 +/- 0.3037E-02 ( 8.352 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1044 493 0.1589E+00 0.1588E+00 0.5000E-02
channel 2 : 1 T 1160 517 0.1670E+00 0.1453E+00 0.8504E-02
channel 3 : 2 T 4926 1364 0.6709E+00 0.6663E+00 0.5000E-02
channel 4 : 2 T 4785 1264 0.6555E+00 0.6385E+00 0.5000E-02
channel 5 : 3 T 18066 4831 0.2549E+01 0.2511E+01 0.5000E-02
channel 6 : 3 T 19167 5073 0.2653E+01 0.2620E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8541086884774352 +/- 3.3197644652514548E-002
Final result: 6.7399666025189431 +/- 3.3669751036441563E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 245
Stability unknown: 0
Stable PS point: 245
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 245
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 245
counters for the granny resonances
ntot 0
Time spent in Born : 0.137938678
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 3.20874858
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 0.991632044
Time spent in Integrated_CT : 0.652212024
Time spent in Virtuals : 1.96376908
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 2.20767736
Time spent in N1body_prefactor : 3.39171514E-02
Time spent in Adding_alphas_pdf : 0.555385888
Time spent in Reweight_scale : 2.61446142
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 0.769758701
Time spent in Applying_cuts : 0.170708165
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 4.36039686
Time spent in Other_tasks : 1.42571831
Time spent in Total : 19.0923233
Time in seconds: 40
LOG file for integration channel /P0_uxu_wpwm/all_G1_21, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
35611
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9615493614169939E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 21
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 493 0.3501E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 517 0.4070E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1364 0.1674E+02 0.0000E+00 0.7012E-02
channel 4 : 2 F 0 1264 0.1682E+02 0.0000E+00 0.7036E-02
channel 5 : 3 F 0 4831 0.6307E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 5073 0.6557E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 3 , 66297
with seed 52
Ranmar initialization seeds 5028 15565
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.897534D+02 0.897534D+02 1.00
muF1, muF1_reference: 0.897534D+02 0.897534D+02 1.00
muF2, muF2_reference: 0.897534D+02 0.897534D+02 1.00
QES, QES_reference: 0.897534D+02 0.897534D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.11828498474075248
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
REAL 2: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.12024801542656785
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.2803040357081517E-004 OLP: -1.2803040357081604E-004
COEFFICIENT SINGLE POLE:
MadFKS: -1.7126858965591847E-004 OLP: -1.7126858965541589E-004
FINITE:
OLP: -3.8224264048635779E-003
BORN: 0.11668082412753535
MOMENTA (Exyzm):
1 83.010742014607658 0.0000000000000000 0.0000000000000000 83.010742014607658 0.0000000000000000
2 83.010742014607658 -0.0000000000000000 -0.0000000000000000 -83.010742014607658 0.0000000000000000
3 83.010742014607658 -3.6792624746953426 -3.3107373285412143 -19.976730833633738 80.418999999999997
4 83.010742014607658 3.6792624746953426 3.3107373285412143 19.976730833633734 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.2803040357081517E-004 OLP: -1.2803040357081604E-004
COEFFICIENT SINGLE POLE:
MadFKS: -1.7126858965591858E-004 OLP: -1.7126858965541589E-004
ABS integral = 0.6917E+01 +/- 0.3548E-01 ( 0.513 %)
Integral = 0.6804E+01 +/- 0.3593E-01 ( 0.528 %)
Virtual = 0.7432E-02 +/- 0.1528E-01 ( 205.600 %)
Virtual ratio = -.8669E-01 +/- 0.3918E-02 ( 4.520 %)
ABS virtual = 0.1354E+00 +/- 0.1527E-01 ( 11.275 %)
Born = 0.3942E-01 +/- 0.2985E-02 ( 7.573 %)
V 2 = 0.7432E-02 +/- 0.1528E-01 ( 205.600 %)
B 2 = 0.3942E-01 +/- 0.2985E-02 ( 7.573 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6917E+01 +/- 0.3548E-01 ( 0.513 %)
accumulated results Integral = 0.6804E+01 +/- 0.3593E-01 ( 0.528 %)
accumulated results Virtual = 0.7432E-02 +/- 0.1528E-01 ( 205.600 %)
accumulated results Virtual ratio = -.8669E-01 +/- 0.3918E-02 ( 4.520 %)
accumulated results ABS virtual = 0.1354E+00 +/- 0.1527E-01 ( 11.275 %)
accumulated results Born = 0.3942E-01 +/- 0.2985E-02 ( 7.573 %)
accumulated results V 2 = 0.7432E-02 +/- 0.1528E-01 ( 205.600 %)
accumulated results B 2 = 0.3942E-01 +/- 0.2985E-02 ( 7.573 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 1063 493 0.1569E+00 0.1502E+00 0.5000E-02
channel 2 : 1 T 1179 517 0.1494E+00 0.1490E+00 0.5000E-02
channel 3 : 2 T 4838 1364 0.6732E+00 0.6584E+00 0.5000E-02
channel 4 : 2 T 4880 1264 0.6762E+00 0.6474E+00 0.5727E-02
channel 5 : 3 T 18230 4831 0.2632E+01 0.2602E+01 0.5000E-02
channel 6 : 3 T 18963 5073 0.2629E+01 0.2596E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.9170520542175176 +/- 3.5482058659117098E-002
Final result: 6.8036485750719065 +/- 3.5925379370616052E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 260
Stability unknown: 0
Stable PS point: 260
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 260
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 260
counters for the granny resonances
ntot 0
Time spent in Born : 0.268138498
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.01100349
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.74880850
Time spent in Integrated_CT : 1.30822325
Time spent in Virtuals : 4.07010221
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.88558316
Time spent in N1body_prefactor : 5.53140938E-02
Time spent in Adding_alphas_pdf : 0.936163306
Time spent in Reweight_scale : 4.26956844
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.35509884
Time spent in Applying_cuts : 0.293604523
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.10533524
Time spent in Other_tasks : 2.41640282
Time spent in Total : 33.7233467
Time in seconds: 38
LOG file for integration channel /P0_uxu_wpwm/all_G1_22, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
35613
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9615493614169939E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 22
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 493 0.3501E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 517 0.4070E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1364 0.1674E+02 0.0000E+00 0.7012E-02
channel 4 : 2 F 0 1264 0.1682E+02 0.0000E+00 0.7036E-02
channel 5 : 3 F 0 4831 0.6307E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 5073 0.6557E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 3 , 69454
with seed 52
Ranmar initialization seeds 5028 18722
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.811827D+02 0.811827D+02 1.00
muF1, muF1_reference: 0.811827D+02 0.811827D+02 1.00
muF2, muF2_reference: 0.811827D+02 0.811827D+02 1.00
QES, QES_reference: 0.811827D+02 0.811827D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12010837027364404
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11726801820673145
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.2469072677630130E-005 OLP: -2.2469072677630161E-005
COEFFICIENT SINGLE POLE:
MadFKS: 5.7831113424523323E-005 OLP: 5.7831113424576083E-005
FINITE:
OLP: -1.0336902370084969E-003
BORN: 2.0477244812848468E-002
MOMENTA (Exyzm):
1 97.978503694773423 0.0000000000000000 0.0000000000000000 97.978503694773423 0.0000000000000000
2 97.978503694773423 -0.0000000000000000 -0.0000000000000000 -97.978503694773423 0.0000000000000000
3 97.978503694773423 -49.208660797232206 -12.105651673495979 23.759893210400932 80.418999999999997
4 97.978503694773423 49.208660797232206 12.105651673495979 -23.759893210400932 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.2469072677630130E-005 OLP: -2.2469072677630161E-005
COEFFICIENT SINGLE POLE:
MadFKS: 5.7831113424523296E-005 OLP: 5.7831113424576083E-005
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
REAL 3: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6872E+01 +/- 0.3314E-01 ( 0.482 %)
Integral = 0.6799E+01 +/- 0.3344E-01 ( 0.492 %)
Virtual = 0.4245E-01 +/- 0.1529E-01 ( 36.017 %)
Virtual ratio = -.7656E-01 +/- 0.3354E-02 ( 4.381 %)
ABS virtual = 0.1292E+00 +/- 0.1528E-01 ( 11.829 %)
Born = 0.4028E-01 +/- 0.3169E-02 ( 7.868 %)
V 2 = 0.4245E-01 +/- 0.1529E-01 ( 36.017 %)
B 2 = 0.4028E-01 +/- 0.3169E-02 ( 7.868 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6872E+01 +/- 0.3314E-01 ( 0.482 %)
accumulated results Integral = 0.6799E+01 +/- 0.3344E-01 ( 0.492 %)
accumulated results Virtual = 0.4245E-01 +/- 0.1529E-01 ( 36.017 %)
accumulated results Virtual ratio = -.7656E-01 +/- 0.3354E-02 ( 4.381 %)
accumulated results ABS virtual = 0.1292E+00 +/- 0.1528E-01 ( 11.829 %)
accumulated results Born = 0.4028E-01 +/- 0.3169E-02 ( 7.868 %)
accumulated results V 2 = 0.4245E-01 +/- 0.1529E-01 ( 36.017 %)
accumulated results B 2 = 0.4028E-01 +/- 0.3169E-02 ( 7.868 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 957 493 0.1421E+00 0.1417E+00 0.5000E-02
channel 2 : 1 T 1152 517 0.1491E+00 0.1476E+00 0.5000E-02
channel 3 : 2 T 4856 1364 0.6614E+00 0.6589E+00 0.5000E-02
channel 4 : 2 T 4827 1264 0.6602E+00 0.6529E+00 0.5000E-02
channel 5 : 3 T 18173 4831 0.2603E+01 0.2572E+01 0.5000E-02
channel 6 : 3 T 19183 5073 0.2656E+01 0.2625E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8716485268353713 +/- 3.3137359459576646E-002
Final result: 6.7989032775074030 +/- 3.3441248318414427E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 260
Stability unknown: 0
Stable PS point: 260
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 260
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 260
counters for the granny resonances
ntot 0
Time spent in Born : 0.269104272
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.00010586
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.75314438
Time spent in Integrated_CT : 1.30822372
Time spent in Virtuals : 4.12009430
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.89524269
Time spent in N1body_prefactor : 5.55609092E-02
Time spent in Adding_alphas_pdf : 0.937173665
Time spent in Reweight_scale : 4.29033232
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.34257591
Time spent in Applying_cuts : 0.295726180
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.09222317
Time spent in Other_tasks : 2.41684723
Time spent in Total : 33.7763557
Time in seconds: 38
LOG file for integration channel /P0_uxu_wpwm/all_G1_23, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
44942
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9615493614169939E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 23
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 493 0.3501E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 517 0.4070E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1364 0.1674E+02 0.0000E+00 0.7012E-02
channel 4 : 2 F 0 1264 0.1682E+02 0.0000E+00 0.7036E-02
channel 5 : 3 F 0 4831 0.6307E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 5073 0.6557E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 3 , 72611
with seed 52
Ranmar initialization seeds 5028 21879
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.804547D+02 0.804547D+02 1.00
muF1, muF1_reference: 0.804547D+02 0.804547D+02 1.00
muF2, muF2_reference: 0.804547D+02 0.804547D+02 1.00
QES, QES_reference: 0.804547D+02 0.804547D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12027477316266834
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 2: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12026596390101910
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.0079182996365266E-004 OLP: -1.0079182996364773E-004
COEFFICIENT SINGLE POLE:
MadFKS: -8.8834905156598529E-005 OLP: -8.8834905154549183E-005
FINITE:
OLP: 4.3289432869108733E-004
BORN: 9.1856882876859336E-002
MOMENTA (Exyzm):
1 81.309261675047978 0.0000000000000000 0.0000000000000000 81.309261675047978 0.0000000000000000
2 81.309261675047978 -0.0000000000000000 -0.0000000000000000 -81.309261675047978 0.0000000000000000
3 81.309261675047978 -3.4506306599543661 -4.2208510796366991E-002 -11.492251286481093 80.418999999999997
4 81.309261675047978 3.4506306599543661 4.2208510796366991E-002 11.492251286481087 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.0079182996365266E-004 OLP: -1.0079182996364773E-004
COEFFICIENT SINGLE POLE:
MadFKS: -8.8834905156598448E-005 OLP: -8.8834905154549183E-005
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6822E+01 +/- 0.3024E-01 ( 0.443 %)
Integral = 0.6743E+01 +/- 0.3060E-01 ( 0.454 %)
Virtual = 0.9137E-02 +/- 0.1072E-01 ( 117.287 %)
Virtual ratio = -.7665E-01 +/- 0.6171E-02 ( 8.051 %)
ABS virtual = 0.1076E+00 +/- 0.1071E-01 ( 9.951 %)
Born = 0.4261E-01 +/- 0.3427E-02 ( 8.042 %)
V 2 = 0.9137E-02 +/- 0.1072E-01 ( 117.287 %)
B 2 = 0.4261E-01 +/- 0.3427E-02 ( 8.042 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6822E+01 +/- 0.3024E-01 ( 0.443 %)
accumulated results Integral = 0.6743E+01 +/- 0.3060E-01 ( 0.454 %)
accumulated results Virtual = 0.9137E-02 +/- 0.1072E-01 ( 117.287 %)
accumulated results Virtual ratio = -.7665E-01 +/- 0.6171E-02 ( 8.051 %)
accumulated results ABS virtual = 0.1076E+00 +/- 0.1071E-01 ( 9.951 %)
accumulated results Born = 0.4261E-01 +/- 0.3427E-02 ( 8.042 %)
accumulated results V 2 = 0.9137E-02 +/- 0.1072E-01 ( 117.287 %)
accumulated results B 2 = 0.4261E-01 +/- 0.3427E-02 ( 8.042 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 984 493 0.1406E+00 0.1405E+00 0.5000E-02
channel 2 : 1 T 1157 517 0.1429E+00 0.1427E+00 0.5000E-02
channel 3 : 2 T 4811 1364 0.6573E+00 0.6474E+00 0.5000E-02
channel 4 : 2 T 4882 1264 0.6658E+00 0.6593E+00 0.5000E-02
channel 5 : 3 T 18217 4831 0.2595E+01 0.2573E+01 0.5000E-02
channel 6 : 3 T 19101 5073 0.2620E+01 0.2580E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8217485701967435 +/- 3.0241452877107722E-002
Final result: 6.7431396249362550 +/- 3.0598036532820460E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 263
Stability unknown: 0
Stable PS point: 263
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 263
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 263
counters for the granny resonances
ntot 0
Time spent in Born : 0.210915044
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.46439791
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.58501506
Time spent in Integrated_CT : 1.10565615
Time spent in Virtuals : 3.58564520
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.56535268
Time spent in N1body_prefactor : 3.49453464E-02
Time spent in Adding_alphas_pdf : 0.768829703
Time spent in Reweight_scale : 3.20760751
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.10086370
Time spent in Applying_cuts : 0.203721479
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.24453497
Time spent in Other_tasks : 1.59513855
Time spent in Total : 28.6726246
Time in seconds: 34
LOG file for integration channel /P0_uxu_wpwm/all_G1_24, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
44943
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9615493614169939E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 24
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 493 0.3501E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 517 0.4070E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1364 0.1674E+02 0.0000E+00 0.7012E-02
channel 4 : 2 F 0 1264 0.1682E+02 0.0000E+00 0.7036E-02
channel 5 : 3 F 0 4831 0.6307E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 5073 0.6557E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 3 , 75768
with seed 52
Ranmar initialization seeds 5028 25036
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.804300D+02 0.804300D+02 1.00
muF1, muF1_reference: 0.804300D+02 0.804300D+02 1.00
muF2, muF2_reference: 0.804300D+02 0.804300D+02 1.00
QES, QES_reference: 0.804300D+02 0.804300D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12028044384693978
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
REAL 2: keeping split order 1
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12027958335131464
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.6711013219931739E-004 OLP: -2.6711013219868774E-004
COEFFICIENT SINGLE POLE:
MadFKS: -6.3487272466812344E-004 OLP: -6.3487272467037631E-004
FINITE:
OLP: -1.6231875608456348E-002
BORN: 0.24343147790354833
MOMENTA (Exyzm):
1 95.168661461516379 0.0000000000000000 0.0000000000000000 95.168661461516379 0.0000000000000000
2 95.168661461516379 -0.0000000000000000 -0.0000000000000000 -95.168661461516379 0.0000000000000000
3 95.168661461516379 -0.50213286281725467 -1.4568498692523792 -50.867317743549762 80.418999999999997
4 95.168661461516379 0.50213286281725467 1.4568498692523792 50.867317743549762 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -2.6711013219931739E-004 OLP: -2.6711013219868774E-004
COEFFICIENT SINGLE POLE:
MadFKS: -6.3487272466812366E-004 OLP: -6.3487272467037631E-004
ABS integral = 0.6867E+01 +/- 0.2856E-01 ( 0.416 %)
Integral = 0.6789E+01 +/- 0.2893E-01 ( 0.426 %)
Virtual = 0.1456E-01 +/- 0.1037E-01 ( 71.232 %)
Virtual ratio = -.8159E-01 +/- 0.4137E-02 ( 5.071 %)
ABS virtual = 0.1109E+00 +/- 0.1036E-01 ( 9.337 %)
Born = 0.4023E-01 +/- 0.2818E-02 ( 7.006 %)
V 2 = 0.1456E-01 +/- 0.1037E-01 ( 71.232 %)
B 2 = 0.4023E-01 +/- 0.2818E-02 ( 7.006 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6867E+01 +/- 0.2856E-01 ( 0.416 %)
accumulated results Integral = 0.6789E+01 +/- 0.2893E-01 ( 0.426 %)
accumulated results Virtual = 0.1456E-01 +/- 0.1037E-01 ( 71.232 %)
accumulated results Virtual ratio = -.8159E-01 +/- 0.4137E-02 ( 5.071 %)
accumulated results ABS virtual = 0.1109E+00 +/- 0.1036E-01 ( 9.337 %)
accumulated results Born = 0.4023E-01 +/- 0.2818E-02 ( 7.006 %)
accumulated results V 2 = 0.1456E-01 +/- 0.1037E-01 ( 71.232 %)
accumulated results B 2 = 0.4023E-01 +/- 0.2818E-02 ( 7.006 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 996 493 0.1387E+00 0.1384E+00 0.5000E-02
channel 2 : 1 T 1130 517 0.1457E+00 0.1447E+00 0.5000E-02
channel 3 : 2 T 4880 1364 0.6708E+00 0.6639E+00 0.5000E-02
channel 4 : 2 T 4907 1264 0.6709E+00 0.6646E+00 0.5000E-02
channel 5 : 3 T 18235 4831 0.2616E+01 0.2591E+01 0.5000E-02
channel 6 : 3 T 19001 5073 0.2624E+01 0.2586E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8667340096715748 +/- 2.8557391750557874E-002
Final result: 6.7890009422399373 +/- 2.8933042364147066E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 280
Stability unknown: 0
Stable PS point: 280
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 280
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 280
counters for the granny resonances
ntot 0
Time spent in Born : 0.209164351
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.44743443
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.57872784
Time spent in Integrated_CT : 1.09634256
Time spent in Virtuals : 3.81053019
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.52879524
Time spent in N1body_prefactor : 3.46452743E-02
Time spent in Adding_alphas_pdf : 0.772155523
Time spent in Reweight_scale : 3.23592234
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.07640266
Time spent in Applying_cuts : 0.198209494
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.16633892
Time spent in Other_tasks : 1.57199860
Time spent in Total : 28.7266655
Time in seconds: 34
LOG file for integration channel /P0_uxu_wpwm/all_G1_25, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
35702
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9615493614169939E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 25
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 493 0.3501E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 517 0.4070E+01 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1364 0.1674E+02 0.0000E+00 0.7012E-02
channel 4 : 2 F 0 1264 0.1682E+02 0.0000E+00 0.7036E-02
channel 5 : 3 F 0 4831 0.6307E+02 0.0000E+00 0.5000E-02
channel 6 : 3 F 0 5073 0.6557E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 3 , 78925
with seed 52
Ranmar initialization seeds 5028 28193
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.807271D+02 0.807271D+02 1.00
muF1, muF1_reference: 0.807271D+02 0.807271D+02 1.00
muF2, muF2_reference: 0.807271D+02 0.807271D+02 1.00
QES, QES_reference: 0.807271D+02 0.807271D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12021228158686817
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 2: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 1: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11813502327367603
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.5432534830216966E-005 OLP: -1.5432534830216980E-005
COEFFICIENT SINGLE POLE:
MadFKS: 6.0070941802218142E-005 OLP: 6.0070941802151646E-005
FINITE:
OLP: -7.0413827090736716E-004
BORN: 1.4064478687444195E-002
MOMENTA (Exyzm):
1 99.212519892658250 0.0000000000000000 0.0000000000000000 99.212519892658250 0.0000000000000000
2 99.212519892658250 -0.0000000000000000 -0.0000000000000000 -99.212519892658250 0.0000000000000000
3 99.212519892658250 -35.123672934876943 -22.162918999586225 40.633005838021425 80.418999999999997
4 99.212519892658250 35.123672934876943 22.162918999586225 -40.633005838021425 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -1.5432534830216966E-005 OLP: -1.5432534830216980E-005
COEFFICIENT SINGLE POLE:
MadFKS: 6.0070941802218175E-005 OLP: 6.0070941802151646E-005
REAL 3: keeping split order 1
ABS integral = 0.6874E+01 +/- 0.3312E-01 ( 0.482 %)
Integral = 0.6767E+01 +/- 0.3356E-01 ( 0.496 %)
Virtual = -.4493E-02 +/- 0.1203E-01 ( 267.707 %)
Virtual ratio = -.8529E-01 +/- 0.3187E-02 ( 3.737 %)
ABS virtual = 0.1250E+00 +/- 0.1202E-01 ( 9.611 %)
Born = 0.4276E-01 +/- 0.3171E-02 ( 7.415 %)
V 2 = -.4493E-02 +/- 0.1203E-01 ( 267.707 %)
B 2 = 0.4276E-01 +/- 0.3171E-02 ( 7.415 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6874E+01 +/- 0.3312E-01 ( 0.482 %)
accumulated results Integral = 0.6767E+01 +/- 0.3356E-01 ( 0.496 %)
accumulated results Virtual = -.4493E-02 +/- 0.1203E-01 ( 267.707 %)
accumulated results Virtual ratio = -.8529E-01 +/- 0.3187E-02 ( 3.737 %)
accumulated results ABS virtual = 0.1250E+00 +/- 0.1202E-01 ( 9.611 %)
accumulated results Born = 0.4276E-01 +/- 0.3171E-02 ( 7.415 %)
accumulated results V 2 = -.4493E-02 +/- 0.1203E-01 ( 267.707 %)
accumulated results B 2 = 0.4276E-01 +/- 0.3171E-02 ( 7.415 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 969 493 0.1406E+00 0.1323E+00 0.6037E-02
channel 2 : 1 T 1157 517 0.1505E+00 0.1500E+00 0.5000E-02
channel 3 : 2 T 4811 1364 0.6634E+00 0.6503E+00 0.5268E-02
channel 4 : 2 T 4882 1264 0.6643E+00 0.6522E+00 0.5000E-02
channel 5 : 3 T 18329 4831 0.2591E+01 0.2554E+01 0.5000E-02
channel 6 : 3 T 19001 5073 0.2665E+01 0.2628E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.8740264897692365 +/- 3.3116292530704403E-002
Final result: 6.7668754791587462 +/- 3.3562268998194623E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 276
Stability unknown: 0
Stable PS point: 276
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 276
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 276
counters for the granny resonances
ntot 0
Time spent in Born : 0.147678673
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 3.20121050
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 0.958704948
Time spent in Integrated_CT : 0.673448086
Time spent in Virtuals : 2.35169554
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 2.14656639
Time spent in N1body_prefactor : 3.95306274E-02
Time spent in Adding_alphas_pdf : 0.503802419
Time spent in Reweight_scale : 2.64288759
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 0.763023257
Time spent in Applying_cuts : 0.180918157
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 3.87043476
Time spent in Other_tasks : 1.57337952
Time spent in Total : 19.0532799
Time in seconds: 22
LOG file for integration channel /P0_dxd_wpwm/all_G1_1, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
27772
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9836011002712993E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 1
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.1321E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 256 0.8846E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1531 0.1932E+02 0.0000E+00 0.5972E-02
channel 4 : 2 F 0 1597 0.2029E+02 0.0000E+00 0.6050E-02
channel 5 : 3 F 0 4996 0.6184E+02 0.0000E+00 0.5635E-02
channel 6 : 3 F 0 4848 0.6237E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 4 , 3157
with seed 52
Ranmar initialization seeds 5028 12588
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.814272D+02 0.814272D+02 1.00
muF1, muF1_reference: 0.814272D+02 0.814272D+02 1.00
muF2, muF2_reference: 0.814272D+02 0.814272D+02 1.00
QES, QES_reference: 0.814272D+02 0.814272D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12005292506440153
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12025922460013967
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -3.2666662429662687E-005 OLP: -3.2666662429659021E-005
COEFFICIENT SINGLE POLE:
MadFKS: -7.3354112817441833E-005 OLP: -7.3354112818371564E-005
FINITE:
OLP: -3.0132952549103134E-003
BORN: 0.11908337355761978
MOMENTA (Exyzm):
1 82.919681193145905 0.0000000000000000 0.0000000000000000 82.919681193145905 0.0000000000000000
2 82.919681193145905 -0.0000000000000000 -0.0000000000000000 -82.919681193145905 0.0000000000000000
3 82.919681193145905 3.5792280788668127 1.9548651608498706 19.794585035693533 80.418999999999997
4 82.919681193145905 -3.5792280788668127 -1.9548651608498706 -19.794585035693530 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -3.2666662429662687E-005 OLP: -3.2666662429659021E-005
COEFFICIENT SINGLE POLE:
MadFKS: -7.3354112817441833E-005 OLP: -7.3354112818371564E-005
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6567E+01 +/- 0.2744E-01 ( 0.418 %)
Integral = 0.6474E+01 +/- 0.2789E-01 ( 0.431 %)
Virtual = 0.1126E-01 +/- 0.1201E-01 ( 106.664 %)
Virtual ratio = -.8215E-01 +/- 0.4126E-02 ( 5.022 %)
ABS virtual = 0.1185E+00 +/- 0.1199E-01 ( 10.119 %)
Born = 0.3766E-01 +/- 0.2683E-02 ( 7.123 %)
V 2 = 0.1126E-01 +/- 0.1201E-01 ( 106.664 %)
B 2 = 0.3766E-01 +/- 0.2683E-02 ( 7.123 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6567E+01 +/- 0.2744E-01 ( 0.418 %)
accumulated results Integral = 0.6474E+01 +/- 0.2789E-01 ( 0.431 %)
accumulated results Virtual = 0.1126E-01 +/- 0.1201E-01 ( 106.664 %)
accumulated results Virtual ratio = -.8215E-01 +/- 0.4126E-02 ( 5.022 %)
accumulated results ABS virtual = 0.1185E+00 +/- 0.1199E-01 ( 10.119 %)
accumulated results Born = 0.3766E-01 +/- 0.2683E-02 ( 7.123 %)
accumulated results V 2 = 0.1126E-01 +/- 0.1201E-01 ( 106.664 %)
accumulated results B 2 = 0.3766E-01 +/- 0.2683E-02 ( 7.123 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 388 256 0.3530E-01 0.3528E-01 0.5000E-02
channel 2 : 1 T 258 256 0.3403E-01 0.3330E-01 0.5000E-02
channel 3 : 2 T 5818 1531 0.8179E+00 0.8029E+00 0.5000E-02
channel 4 : 2 T 6028 1597 0.7981E+00 0.7914E+00 0.5000E-02
channel 5 : 3 T 18417 4996 0.2445E+01 0.2416E+01 0.5000E-02
channel 6 : 3 T 18230 4848 0.2437E+01 0.2395E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5669988173102665 +/- 2.7438635134085117E-002
Final result: 6.4737501220670275 +/- 2.7885819857993488E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 277
Stability unknown: 0
Stable PS point: 277
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 277
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 277
counters for the granny resonances
ntot 0
Time spent in Born : 0.237343132
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.82425880
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.44023228
Time spent in Integrated_CT : 1.15572214
Time spent in Virtuals : 4.92472267
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.48522139
Time spent in N1body_prefactor : 5.06904870E-02
Time spent in Adding_alphas_pdf : 0.857894182
Time spent in Reweight_scale : 3.90562487
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.20894718
Time spent in Applying_cuts : 0.285252064
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.82519817
Time spent in Other_tasks : 2.44816971
Time spent in Total : 32.6492767
Time in seconds: 41
LOG file for integration channel /P0_dxd_wpwm/all_G1_2, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
27775
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9836011002712993E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 2
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.1321E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 256 0.8846E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1531 0.1932E+02 0.0000E+00 0.5972E-02
channel 4 : 2 F 0 1597 0.2029E+02 0.0000E+00 0.6050E-02
channel 5 : 3 F 0 4996 0.6184E+02 0.0000E+00 0.5635E-02
channel 6 : 3 F 0 4848 0.6237E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 4 , 6314
with seed 52
Ranmar initialization seeds 5028 15745
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.812772D+02 0.812772D+02 1.00
muF1, muF1_reference: 0.812772D+02 0.812772D+02 1.00
muF2, muF2_reference: 0.812772D+02 0.812772D+02 1.00
QES, QES_reference: 0.812772D+02 0.812772D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12008691973796108
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11982419470700929
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -5.6815245618296688E-005 OLP: -5.6815245618295990E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.4178768726129024E-004 OLP: -1.4178768726147520E-004
FINITE:
OLP: -1.1636625624232299E-002
BORN: 0.20711485699830667
MOMENTA (Exyzm):
1 94.939889965426786 0.0000000000000000 0.0000000000000000 94.939889965426786 0.0000000000000000
2 94.939889965426786 -0.0000000000000000 -0.0000000000000000 -94.939889965426786 0.0000000000000000
3 94.939889965426786 12.857943730747090 12.837563665629137 47.076930526481945 80.418999999999997
4 94.939889965426786 -12.857943730747090 -12.837563665629137 -47.076930526481945 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -5.6815245618296688E-005 OLP: -5.6815245618295990E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.4178768726129029E-004 OLP: -1.4178768726147520E-004
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6553E+01 +/- 0.2575E-01 ( 0.393 %)
Integral = 0.6482E+01 +/- 0.2612E-01 ( 0.403 %)
Virtual = 0.1574E-01 +/- 0.1081E-01 ( 68.645 %)
Virtual ratio = -.7615E-01 +/- 0.4400E-02 ( 5.778 %)
ABS virtual = 0.1044E+00 +/- 0.1080E-01 ( 10.345 %)
Born = 0.3929E-01 +/- 0.3148E-02 ( 8.012 %)
V 2 = 0.1574E-01 +/- 0.1081E-01 ( 68.645 %)
B 2 = 0.3929E-01 +/- 0.3148E-02 ( 8.012 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6553E+01 +/- 0.2575E-01 ( 0.393 %)
accumulated results Integral = 0.6482E+01 +/- 0.2612E-01 ( 0.403 %)
accumulated results Virtual = 0.1574E-01 +/- 0.1081E-01 ( 68.645 %)
accumulated results Virtual ratio = -.7615E-01 +/- 0.4400E-02 ( 5.778 %)
accumulated results ABS virtual = 0.1044E+00 +/- 0.1080E-01 ( 10.345 %)
accumulated results Born = 0.3929E-01 +/- 0.3148E-02 ( 8.012 %)
accumulated results V 2 = 0.1574E-01 +/- 0.1081E-01 ( 68.645 %)
accumulated results B 2 = 0.3929E-01 +/- 0.3148E-02 ( 8.012 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 408 256 0.3156E-01 0.3156E-01 0.5000E-02
channel 2 : 1 T 276 256 0.3923E-01 0.3920E-01 0.5000E-02
channel 3 : 2 T 5691 1531 0.7843E+00 0.7745E+00 0.5000E-02
channel 4 : 2 T 5972 1597 0.7918E+00 0.7818E+00 0.5000E-02
channel 5 : 3 T 18413 4996 0.2461E+01 0.2436E+01 0.5000E-02
channel 6 : 3 T 18399 4848 0.2446E+01 0.2419E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5534547823809115 +/- 2.5753505543096800E-002
Final result: 6.4824935585951922 +/- 2.6116339216090072E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 254
Stability unknown: 0
Stable PS point: 254
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 254
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 254
counters for the granny resonances
ntot 0
Time spent in Born : 0.264093161
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.02160978
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.61896765
Time spent in Integrated_CT : 1.29824448
Time spent in Virtuals : 5.03383398
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.86442089
Time spent in N1body_prefactor : 5.59258312E-02
Time spent in Adding_alphas_pdf : 0.923677921
Time spent in Reweight_scale : 4.17464447
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.34123015
Time spent in Applying_cuts : 0.316704273
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.16757965
Time spent in Other_tasks : 2.47507477
Time spent in Total : 34.5560074
Time in seconds: 41
LOG file for integration channel /P0_dxd_wpwm/all_G1_3, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
27774
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9836011002712993E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 3
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.1321E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 256 0.8846E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1531 0.1932E+02 0.0000E+00 0.5972E-02
channel 4 : 2 F 0 1597 0.2029E+02 0.0000E+00 0.6050E-02
channel 5 : 3 F 0 4996 0.6184E+02 0.0000E+00 0.5635E-02
channel 6 : 3 F 0 4848 0.6237E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 4 , 9471
with seed 52
Ranmar initialization seeds 5028 18902
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.805855D+02 0.805855D+02 1.00
muF1, muF1_reference: 0.805855D+02 0.805855D+02 1.00
muF2, muF2_reference: 0.805855D+02 0.805855D+02 1.00
QES, QES_reference: 0.805855D+02 0.805855D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12024473190014807
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 3: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
REAL 1: keeping split order 1
REAL 2: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12005417985524977
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -5.4566039841564644E-005 OLP: -5.4566039841564542E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.5133310885616055E-004 OLP: -1.5133310885612051E-004
FINITE:
OLP: -1.0150241005232721E-002
BORN: 0.19891558006589113
MOMENTA (Exyzm):
1 91.887227137052804 0.0000000000000000 0.0000000000000000 91.887227137052804 0.0000000000000000
2 91.887227137052804 -0.0000000000000000 -0.0000000000000000 -91.887227137052804 0.0000000000000000
3 91.887227137052804 -1.9445977209301895 -12.589233283799706 42.588457297325952 80.418999999999997
4 91.887227137052804 1.9445977209301895 12.589233283799706 -42.588457297325952 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -5.4566039841564644E-005 OLP: -5.4566039841564542E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.5133310885616044E-004 OLP: -1.5133310885612051E-004
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6547E+01 +/- 0.2741E-01 ( 0.419 %)
Integral = 0.6473E+01 +/- 0.2777E-01 ( 0.429 %)
Virtual = 0.1653E-02 +/- 0.9813E-02 ( 593.642 %)
Virtual ratio = -.7975E-01 +/- 0.3646E-02 ( 4.572 %)
ABS virtual = 0.9490E-01 +/- 0.9803E-02 ( 10.330 %)
Born = 0.3675E-01 +/- 0.2576E-02 ( 7.011 %)
V 2 = 0.1653E-02 +/- 0.9813E-02 ( 593.642 %)
B 2 = 0.3675E-01 +/- 0.2576E-02 ( 7.011 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6547E+01 +/- 0.2741E-01 ( 0.419 %)
accumulated results Integral = 0.6473E+01 +/- 0.2777E-01 ( 0.429 %)
accumulated results Virtual = 0.1653E-02 +/- 0.9813E-02 ( 593.642 %)
accumulated results Virtual ratio = -.7975E-01 +/- 0.3646E-02 ( 4.572 %)
accumulated results ABS virtual = 0.9490E-01 +/- 0.9803E-02 ( 10.330 %)
accumulated results Born = 0.3675E-01 +/- 0.2576E-02 ( 7.011 %)
accumulated results V 2 = 0.1653E-02 +/- 0.9813E-02 ( 593.642 %)
accumulated results B 2 = 0.3675E-01 +/- 0.2576E-02 ( 7.011 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 387 256 0.3440E-01 0.3386E-01 0.5000E-02
channel 2 : 1 T 237 256 0.3119E-01 0.2685E-01 0.5000E-02
channel 3 : 2 T 5716 1531 0.7914E+00 0.7855E+00 0.5000E-02
channel 4 : 2 T 6005 1597 0.7913E+00 0.7794E+00 0.5000E-02
channel 5 : 3 T 18268 4996 0.2447E+01 0.2417E+01 0.5000E-02
channel 6 : 3 T 18540 4848 0.2451E+01 0.2430E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5466826182173561 +/- 2.7411544768633951E-002
Final result: 6.4725391009896347 +/- 2.7767457212211074E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 261
Stability unknown: 0
Stable PS point: 261
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 261
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 261
counters for the granny resonances
ntot 0
Time spent in Born : 0.262895554
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.99447632
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.61315286
Time spent in Integrated_CT : 1.29652500
Time spent in Virtuals : 5.14842129
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.86972094
Time spent in N1body_prefactor : 5.49903959E-02
Time spent in Adding_alphas_pdf : 0.923379838
Time spent in Reweight_scale : 4.19181824
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.32527339
Time spent in Applying_cuts : 0.302974284
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.14998722
Time spent in Other_tasks : 2.43920135
Time spent in Total : 34.5728188
Time in seconds: 41
LOG file for integration channel /P0_dxd_wpwm/all_G1_4, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
27776
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9836011002712993E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 4
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.1321E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 256 0.8846E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1531 0.1932E+02 0.0000E+00 0.5972E-02
channel 4 : 2 F 0 1597 0.2029E+02 0.0000E+00 0.6050E-02
channel 5 : 3 F 0 4996 0.6184E+02 0.0000E+00 0.5635E-02
channel 6 : 3 F 0 4848 0.6237E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 4 , 12628
with seed 52
Ranmar initialization seeds 5028 22059
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.806861D+02 0.806861D+02 1.00
muF1, muF1_reference: 0.806861D+02 0.806861D+02 1.00
muF2, muF2_reference: 0.806861D+02 0.806861D+02 1.00
QES, QES_reference: 0.806861D+02 0.806861D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12022167411754763
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
REAL 3: keeping split order 1
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11987481957083485
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -3.1127004390934768E-005 OLP: -3.1127004390934843E-005
COEFFICIENT SINGLE POLE:
MadFKS: -5.7749152401626968E-005 OLP: -5.7749152468071946E-005
FINITE:
OLP: -4.2880110187370826E-003
BORN: 0.11347068895074847
MOMENTA (Exyzm):
1 85.043334443665117 0.0000000000000000 0.0000000000000000 85.043334443665117 0.0000000000000000
2 85.043334443665117 -0.0000000000000000 -0.0000000000000000 -85.043334443665117 0.0000000000000000
3 85.043334443665117 -7.1280354349354562 -15.554902164183915 21.734518669573742 80.418999999999997
4 85.043334443665117 7.1280354349354562 15.554902164183915 -21.734518669573742 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -3.1127004390934768E-005 OLP: -3.1127004390934843E-005
COEFFICIENT SINGLE POLE:
MadFKS: -5.7749152401626968E-005 OLP: -5.7749152468071946E-005
ABS integral = 0.6548E+01 +/- 0.2726E-01 ( 0.416 %)
Integral = 0.6455E+01 +/- 0.2771E-01 ( 0.429 %)
Virtual = 0.1613E-01 +/- 0.1309E-01 ( 81.140 %)
Virtual ratio = -.7553E-01 +/- 0.3646E-02 ( 4.827 %)
ABS virtual = 0.1292E+00 +/- 0.1307E-01 ( 10.116 %)
Born = 0.4158E-01 +/- 0.3037E-02 ( 7.305 %)
V 2 = 0.1613E-01 +/- 0.1309E-01 ( 81.140 %)
B 2 = 0.4158E-01 +/- 0.3037E-02 ( 7.305 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6548E+01 +/- 0.2726E-01 ( 0.416 %)
accumulated results Integral = 0.6455E+01 +/- 0.2771E-01 ( 0.429 %)
accumulated results Virtual = 0.1613E-01 +/- 0.1309E-01 ( 81.140 %)
accumulated results Virtual ratio = -.7553E-01 +/- 0.3646E-02 ( 4.827 %)
accumulated results ABS virtual = 0.1292E+00 +/- 0.1307E-01 ( 10.116 %)
accumulated results Born = 0.4158E-01 +/- 0.3037E-02 ( 7.305 %)
accumulated results V 2 = 0.1613E-01 +/- 0.1309E-01 ( 81.140 %)
accumulated results B 2 = 0.4158E-01 +/- 0.3037E-02 ( 7.305 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 433 256 0.3717E-01 0.3716E-01 0.5000E-02
channel 2 : 1 T 272 256 0.4211E-01 0.4211E-01 0.5000E-02
channel 3 : 2 T 5738 1531 0.7897E+00 0.7721E+00 0.5000E-02
channel 4 : 2 T 6028 1597 0.7923E+00 0.7782E+00 0.5000E-02
channel 5 : 3 T 18102 4996 0.2427E+01 0.2398E+01 0.5000E-02
channel 6 : 3 T 18579 4848 0.2460E+01 0.2427E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5477588475979260 +/- 2.7259819407189158E-002
Final result: 6.4551076923577897 +/- 2.7705740579261746E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 287
Stability unknown: 0
Stable PS point: 287
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 287
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 287
counters for the granny resonances
ntot 0
Time spent in Born : 0.263975024
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.99674702
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.63244212
Time spent in Integrated_CT : 1.29891253
Time spent in Virtuals : 5.67715120
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.86503506
Time spent in N1body_prefactor : 5.48923761E-02
Time spent in Adding_alphas_pdf : 0.925018787
Time spent in Reweight_scale : 4.16375637
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.34329796
Time spent in Applying_cuts : 0.306728840
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.17613077
Time spent in Other_tasks : 2.49596024
Time spent in Total : 35.2000465
Time in seconds: 41
LOG file for integration channel /P0_dxd_wpwm/all_G1_5, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
27773
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9836011002712993E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 5
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.1321E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 256 0.8846E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1531 0.1932E+02 0.0000E+00 0.5972E-02
channel 4 : 2 F 0 1597 0.2029E+02 0.0000E+00 0.6050E-02
channel 5 : 3 F 0 4996 0.6184E+02 0.0000E+00 0.5635E-02
channel 6 : 3 F 0 4848 0.6237E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 4 , 15785
with seed 52
Ranmar initialization seeds 5028 25216
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.805230D+02 0.805230D+02 1.00
muF1, muF1_reference: 0.805230D+02 0.805230D+02 1.00
muF2, muF2_reference: 0.805230D+02 0.805230D+02 1.00
QES, QES_reference: 0.805230D+02 0.805230D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12025906926946316
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 2: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12010780442794532
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -5.1752666789575528E-005 OLP: -5.1752666789576517E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.4574702893546817E-004 OLP: -1.4574702893559350E-004
FINITE:
OLP: -9.6765996097514066E-003
BORN: 0.18865968218136336
MOMENTA (Exyzm):
1 90.343761321521114 0.0000000000000000 0.0000000000000000 90.343761321521114 0.0000000000000000
2 90.343761321521114 -0.0000000000000000 -0.0000000000000000 -90.343761321521114 0.0000000000000000
3 90.343761321521114 6.9405280390889876 8.6977090517699942 39.635319810862555 80.418999999999997
4 90.343761321521114 -6.9405280390889876 -8.6977090517699942 -39.635319810862555 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -5.1752666789575528E-005 OLP: -5.1752666789576517E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.4574702893546806E-004 OLP: -1.4574702893559350E-004
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6528E+01 +/- 0.2439E-01 ( 0.374 %)
Integral = 0.6422E+01 +/- 0.2495E-01 ( 0.388 %)
Virtual = -.6308E-02 +/- 0.1066E-01 ( 169.042 %)
Virtual ratio = -.8367E-01 +/- 0.3475E-02 ( 4.153 %)
ABS virtual = 0.1185E+00 +/- 0.1065E-01 ( 8.990 %)
Born = 0.3928E-01 +/- 0.2929E-02 ( 7.457 %)
V 2 = -.6308E-02 +/- 0.1066E-01 ( 169.042 %)
B 2 = 0.3928E-01 +/- 0.2929E-02 ( 7.457 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6528E+01 +/- 0.2439E-01 ( 0.374 %)
accumulated results Integral = 0.6422E+01 +/- 0.2495E-01 ( 0.388 %)
accumulated results Virtual = -.6308E-02 +/- 0.1066E-01 ( 169.042 %)
accumulated results Virtual ratio = -.8367E-01 +/- 0.3475E-02 ( 4.153 %)
accumulated results ABS virtual = 0.1185E+00 +/- 0.1065E-01 ( 8.990 %)
accumulated results Born = 0.3928E-01 +/- 0.2929E-02 ( 7.457 %)
accumulated results V 2 = -.6308E-02 +/- 0.1066E-01 ( 169.042 %)
accumulated results B 2 = 0.3928E-01 +/- 0.2929E-02 ( 7.457 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 397 256 0.3350E-01 0.3316E-01 0.5000E-02
channel 2 : 1 T 286 256 0.3999E-01 0.3997E-01 0.5000E-02
channel 3 : 2 T 5742 1531 0.8079E+00 0.7851E+00 0.5000E-02
channel 4 : 2 T 5973 1597 0.7856E+00 0.7694E+00 0.5000E-02
channel 5 : 3 T 18166 4996 0.2409E+01 0.2375E+01 0.5000E-02
channel 6 : 3 T 18587 4848 0.2452E+01 0.2419E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5277804208461907 +/- 2.4386135063529175E-002
Final result: 6.4222300119920233 +/- 2.4949805723981124E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 280
Stability unknown: 0
Stable PS point: 280
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 280
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 280
counters for the granny resonances
ntot 0
Time spent in Born : 0.265215993
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 6.00569868
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.62973094
Time spent in Integrated_CT : 1.29945612
Time spent in Virtuals : 5.52763748
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.88278031
Time spent in N1body_prefactor : 5.46317399E-02
Time spent in Adding_alphas_pdf : 0.924618542
Time spent in Reweight_scale : 4.17375994
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.35516083
Time spent in Applying_cuts : 0.310583949
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 7.20429134
Time spent in Other_tasks : 2.50298309
Time spent in Total : 35.1365471
Time in seconds: 41
LOG file for integration channel /P0_dxd_wpwm/all_G1_6, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
16774
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9836011002712993E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 6
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.1321E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 256 0.8846E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1531 0.1932E+02 0.0000E+00 0.5972E-02
channel 4 : 2 F 0 1597 0.2029E+02 0.0000E+00 0.6050E-02
channel 5 : 3 F 0 4996 0.6184E+02 0.0000E+00 0.5635E-02
channel 6 : 3 F 0 4848 0.6237E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 4 , 18942
with seed 52
Ranmar initialization seeds 5028 28373
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.813655D+02 0.813655D+02 1.00
muF1, muF1_reference: 0.813655D+02 0.813655D+02 1.00
muF2, muF2_reference: 0.813655D+02 0.813655D+02 1.00
QES, QES_reference: 0.813655D+02 0.813655D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12006689302378819
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 2: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 1: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12027020164525722
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -5.0074839185270077E-005 OLP: -5.0074839185258225E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.4897816184193983E-004 OLP: -1.4897816184255224E-004
FINITE:
OLP: -9.1087102214431667E-003
BORN: 0.18254331287675499
MOMENTA (Exyzm):
1 88.312676952645958 0.0000000000000000 0.0000000000000000 88.312676952645958 0.0000000000000000
2 88.312676952645958 -0.0000000000000000 -0.0000000000000000 -88.312676952645958 0.0000000000000000
3 88.312676952645958 2.9795927611889397 0.24971417963375467 36.372696069282050 80.418999999999997
4 88.312676952645958 -2.9795927611889397 -0.24971417963375467 -36.372696069282050 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -5.0074839185270077E-005 OLP: -5.0074839185258225E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.4897816184193983E-004 OLP: -1.4897816184255224E-004
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6535E+01 +/- 0.2601E-01 ( 0.398 %)
Integral = 0.6456E+01 +/- 0.2641E-01 ( 0.409 %)
Virtual = 0.1372E-01 +/- 0.1075E-01 ( 78.315 %)
Virtual ratio = -.8095E-01 +/- 0.4575E-02 ( 5.652 %)
ABS virtual = 0.1065E+00 +/- 0.1074E-01 ( 10.076 %)
Born = 0.3303E-01 +/- 0.2801E-02 ( 8.478 %)
V 2 = 0.1372E-01 +/- 0.1075E-01 ( 78.315 %)
B 2 = 0.3303E-01 +/- 0.2801E-02 ( 8.478 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6535E+01 +/- 0.2601E-01 ( 0.398 %)
accumulated results Integral = 0.6456E+01 +/- 0.2641E-01 ( 0.409 %)
accumulated results Virtual = 0.1372E-01 +/- 0.1075E-01 ( 78.315 %)
accumulated results Virtual ratio = -.8095E-01 +/- 0.4575E-02 ( 5.652 %)
accumulated results ABS virtual = 0.1065E+00 +/- 0.1074E-01 ( 10.076 %)
accumulated results Born = 0.3303E-01 +/- 0.2801E-02 ( 8.478 %)
accumulated results V 2 = 0.1372E-01 +/- 0.1075E-01 ( 78.315 %)
accumulated results B 2 = 0.3303E-01 +/- 0.2801E-02 ( 8.478 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 394 256 0.3248E-01 0.3185E-01 0.5000E-02
channel 2 : 1 T 278 256 0.3876E-01 0.3875E-01 0.5000E-02
channel 3 : 2 T 5711 1531 0.7950E+00 0.7806E+00 0.5170E-02
channel 4 : 2 T 5922 1597 0.7674E+00 0.7575E+00 0.5000E-02
channel 5 : 3 T 18326 4996 0.2446E+01 0.2422E+01 0.5000E-02
channel 6 : 3 T 18523 4848 0.2455E+01 0.2426E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5348401683654034 +/- 2.6011221792387938E-002
Final result: 6.4563133619538311 +/- 2.6407172156310148E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 231
Stability unknown: 0
Stable PS point: 231
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 231
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 231
counters for the granny resonances
ntot 0
Time spent in Born : 0.324259937
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 9.24120903
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 2.17995501
Time spent in Integrated_CT : 1.52661228
Time spent in Virtuals : 5.51711607
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 5.33229160
Time spent in N1body_prefactor : 6.86622858E-02
Time spent in Adding_alphas_pdf : 1.28318822
Time spent in Reweight_scale : 5.41260433
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.84732914
Time spent in Applying_cuts : 0.394364834
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 10.9726467
Time spent in Other_tasks : 3.34647369
Time spent in Total : 47.4467087
Time in seconds: 50
LOG file for integration channel /P0_dxd_wpwm/all_G1_7, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
16775
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9836011002712993E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 7
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.1321E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 256 0.8846E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1531 0.1932E+02 0.0000E+00 0.5972E-02
channel 4 : 2 F 0 1597 0.2029E+02 0.0000E+00 0.6050E-02
channel 5 : 3 F 0 4996 0.6184E+02 0.0000E+00 0.5635E-02
channel 6 : 3 F 0 4848 0.6237E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 4 , 22099
with seed 52
Ranmar initialization seeds 5028 1449
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.835665D+02 0.835665D+02 1.00
muF1, muF1_reference: 0.835665D+02 0.835665D+02 1.00
muF2, muF2_reference: 0.835665D+02 0.835665D+02 1.00
QES, QES_reference: 0.835665D+02 0.835665D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.11957685859415253
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12013676262993347
==========================================================================================
{ }
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{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -4.1569723767592681E-005 OLP: -4.1569723767590932E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.0931495107418480E-004 OLP: -1.0931495107448943E-004
FINITE:
OLP: -6.8122106653710976E-003
BORN: 0.15153868120938674
MOMENTA (Exyzm):
1 86.478282161855347 0.0000000000000000 0.0000000000000000 86.478282161855347 0.0000000000000000
2 86.478282161855347 -0.0000000000000000 -0.0000000000000000 -86.478282161855347 0.0000000000000000
3 86.478282161855347 4.0354680251446036 9.3209321437380090 30.134912418245662 80.418999999999997
4 86.478282161855347 -4.0354680251446036 -9.3209321437380090 -30.134912418245662 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -4.1569723767592681E-005 OLP: -4.1569723767590932E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.0931495107418480E-004 OLP: -1.0931495107448943E-004
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6527E+01 +/- 0.2524E-01 ( 0.387 %)
Integral = 0.6446E+01 +/- 0.2565E-01 ( 0.398 %)
Virtual = 0.9534E-02 +/- 0.1023E-01 ( 107.346 %)
Virtual ratio = -.7459E-01 +/- 0.2411E-02 ( 3.232 %)
ABS virtual = 0.1059E+00 +/- 0.1022E-01 ( 9.652 %)
Born = 0.3663E-01 +/- 0.2740E-02 ( 7.481 %)
V 2 = 0.9534E-02 +/- 0.1023E-01 ( 107.346 %)
B 2 = 0.3663E-01 +/- 0.2740E-02 ( 7.481 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6527E+01 +/- 0.2524E-01 ( 0.387 %)
accumulated results Integral = 0.6446E+01 +/- 0.2565E-01 ( 0.398 %)
accumulated results Virtual = 0.9534E-02 +/- 0.1023E-01 ( 107.346 %)
accumulated results Virtual ratio = -.7459E-01 +/- 0.2411E-02 ( 3.232 %)
accumulated results ABS virtual = 0.1059E+00 +/- 0.1022E-01 ( 9.652 %)
accumulated results Born = 0.3663E-01 +/- 0.2740E-02 ( 7.481 %)
accumulated results V 2 = 0.9534E-02 +/- 0.1023E-01 ( 107.346 %)
accumulated results B 2 = 0.3663E-01 +/- 0.2740E-02 ( 7.481 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 356 256 0.3001E-01 0.3000E-01 0.5000E-02
channel 2 : 1 T 293 256 0.3542E-01 0.3542E-01 0.5000E-02
channel 3 : 2 T 5751 1531 0.7950E+00 0.7930E+00 0.5000E-02
channel 4 : 2 T 6012 1597 0.7941E+00 0.7748E+00 0.5000E-02
channel 5 : 3 T 18424 4996 0.2445E+01 0.2420E+01 0.5000E-02
channel 6 : 3 T 18312 4848 0.2427E+01 0.2393E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5265083397187738 +/- 2.5236734857555995E-002
Final result: 6.4462158622745518 +/- 2.5653156531425993E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 261
Stability unknown: 0
Stable PS point: 261
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 261
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 261
counters for the granny resonances
ntot 0
Time spent in Born : 0.317881107
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 9.20932198
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 2.17263699
Time spent in Integrated_CT : 1.51896858
Time spent in Virtuals : 6.16631174
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 5.27904177
Time spent in N1body_prefactor : 6.65067285E-02
Time spent in Adding_alphas_pdf : 1.26779389
Time spent in Reweight_scale : 5.26450825
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.86930180
Time spent in Applying_cuts : 0.395376384
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 11.0068331
Time spent in Other_tasks : 3.35727310
Time spent in Total : 47.8917542
Time in seconds: 51
LOG file for integration channel /P0_dxd_wpwm/all_G1_8, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
16780
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9836011002712993E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 8
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.1321E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 256 0.8846E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1531 0.1932E+02 0.0000E+00 0.5972E-02
channel 4 : 2 F 0 1597 0.2029E+02 0.0000E+00 0.6050E-02
channel 5 : 3 F 0 4996 0.6184E+02 0.0000E+00 0.5635E-02
channel 6 : 3 F 0 4848 0.6237E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 4 , 25256
with seed 52
Ranmar initialization seeds 5028 4606
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.815939D+02 0.815939D+02 1.00
muF1, muF1_reference: 0.815939D+02 0.815939D+02 1.00
muF2, muF2_reference: 0.815939D+02 0.815939D+02 1.00
QES, QES_reference: 0.815939D+02 0.815939D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12001523593759215
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 2: keeping split order 1
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12027547289588100
==========================================================================================
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{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -7.4898784920904572E-005 OLP: -7.4898784920943807E-005
COEFFICIENT SINGLE POLE:
MadFKS: -2.2063751933265997E-004 OLP: -2.2063751933221602E-004
FINITE:
OLP: -1.6831715491312203E-002
BORN: 0.27303676961038092
MOMENTA (Exyzm):
1 97.625462678671269 0.0000000000000000 0.0000000000000000 97.625462678671269 0.0000000000000000
2 97.625462678671269 -0.0000000000000000 -0.0000000000000000 -97.625462678671269 0.0000000000000000
3 97.625462678671269 -1.2787153725872840 -1.9013652490466586 55.301583154646337 80.418999999999997
4 97.625462678671269 1.2787153725872840 1.9013652490466586 -55.301583154646337 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -7.4898784920904572E-005 OLP: -7.4898784920943807E-005
COEFFICIENT SINGLE POLE:
MadFKS: -2.2063751933266008E-004 OLP: -2.2063751933221602E-004
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6578E+01 +/- 0.2650E-01 ( 0.403 %)
Integral = 0.6489E+01 +/- 0.2694E-01 ( 0.415 %)
Virtual = 0.9173E-02 +/- 0.1151E-01 ( 125.489 %)
Virtual ratio = -.7606E-01 +/- 0.3200E-02 ( 4.207 %)
ABS virtual = 0.1220E+00 +/- 0.1150E-01 ( 9.429 %)
Born = 0.4120E-01 +/- 0.2938E-02 ( 7.131 %)
V 2 = 0.9173E-02 +/- 0.1151E-01 ( 125.489 %)
B 2 = 0.4120E-01 +/- 0.2938E-02 ( 7.131 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6578E+01 +/- 0.2650E-01 ( 0.403 %)
accumulated results Integral = 0.6489E+01 +/- 0.2694E-01 ( 0.415 %)
accumulated results Virtual = 0.9173E-02 +/- 0.1151E-01 ( 125.489 %)
accumulated results Virtual ratio = -.7606E-01 +/- 0.3200E-02 ( 4.207 %)
accumulated results ABS virtual = 0.1220E+00 +/- 0.1150E-01 ( 9.429 %)
accumulated results Born = 0.4120E-01 +/- 0.2938E-02 ( 7.131 %)
accumulated results V 2 = 0.9173E-02 +/- 0.1151E-01 ( 125.489 %)
accumulated results B 2 = 0.4120E-01 +/- 0.2938E-02 ( 7.131 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 407 256 0.3373E-01 0.3373E-01 0.5000E-02
channel 2 : 1 T 290 256 0.3447E-01 0.3438E-01 0.5000E-02
channel 3 : 2 T 5679 1531 0.7774E+00 0.7701E+00 0.5000E-02
channel 4 : 2 T 6159 1597 0.8222E+00 0.7997E+00 0.5060E-02
channel 5 : 3 T 18175 4996 0.2439E+01 0.2409E+01 0.5000E-02
channel 6 : 3 T 18450 4848 0.2472E+01 0.2442E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5781988590576335 +/- 2.6495268777397649E-002
Final result: 6.4886890029523103 +/- 2.6940585569202015E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 280
Stability unknown: 0
Stable PS point: 280
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 280
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 280
counters for the granny resonances
ntot 0
Time spent in Born : 0.323118299
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 8.89062691
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 2.13921309
Time spent in Integrated_CT : 1.52758598
Time spent in Virtuals : 6.67625427
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 5.18943596
Time spent in N1body_prefactor : 6.69046640E-02
Time spent in Adding_alphas_pdf : 1.27093887
Time spent in Reweight_scale : 5.30088139
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.86670327
Time spent in Applying_cuts : 0.390538931
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 10.8324690
Time spent in Other_tasks : 3.32179260
Time spent in Total : 47.7964630
Time in seconds: 51
LOG file for integration channel /P0_dxd_wpwm/all_G1_9, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
16783
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9836011002712993E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 9
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.1321E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 256 0.8846E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1531 0.1932E+02 0.0000E+00 0.5972E-02
channel 4 : 2 F 0 1597 0.2029E+02 0.0000E+00 0.6050E-02
channel 5 : 3 F 0 4996 0.6184E+02 0.0000E+00 0.5635E-02
channel 6 : 3 F 0 4848 0.6237E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 4 , 28413
with seed 52
Ranmar initialization seeds 5028 7763
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.807234D+02 0.807234D+02 1.00
muF1, muF1_reference: 0.807234D+02 0.807234D+02 1.00
muF2, muF2_reference: 0.807234D+02 0.807234D+02 1.00
QES, QES_reference: 0.807234D+02 0.807234D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12021313156485645
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 2: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
REAL 1: keeping split order 1
REAL 3: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11999124381983994
==========================================================================================
{ }
{ [32m [0m }
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{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
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{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -6.9698226480123429E-005 OLP: -6.9698226480124066E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.8311368582994768E-004 OLP: -1.8311368582970696E-004
FINITE:
OLP: -1.5573037171527953E-002
BORN: 0.25407860255412779
MOMENTA (Exyzm):
1 98.286599452496731 0.0000000000000000 0.0000000000000000 98.286599452496731 0.0000000000000000
2 98.286599452496731 -0.0000000000000000 -0.0000000000000000 -98.286599452496731 0.0000000000000000
3 98.286599452496731 -5.0876316301783575 -13.484881660583337 54.638027434481955 80.418999999999997
4 98.286599452496731 5.0876316301783575 13.484881660583337 -54.638027434481955 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -6.9698226480123429E-005 OLP: -6.9698226480124066E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.8311368582994778E-004 OLP: -1.8311368582970696E-004
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6535E+01 +/- 0.2528E-01 ( 0.387 %)
Integral = 0.6463E+01 +/- 0.2565E-01 ( 0.397 %)
Virtual = 0.2395E-01 +/- 0.1186E-01 ( 49.526 %)
Virtual ratio = -.7134E-01 +/- 0.3737E-02 ( 5.238 %)
ABS virtual = 0.1177E+00 +/- 0.1185E-01 ( 10.068 %)
Born = 0.3948E-01 +/- 0.2762E-02 ( 6.994 %)
V 2 = 0.2395E-01 +/- 0.1186E-01 ( 49.526 %)
B 2 = 0.3948E-01 +/- 0.2762E-02 ( 6.994 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6535E+01 +/- 0.2528E-01 ( 0.387 %)
accumulated results Integral = 0.6463E+01 +/- 0.2565E-01 ( 0.397 %)
accumulated results Virtual = 0.2395E-01 +/- 0.1186E-01 ( 49.526 %)
accumulated results Virtual ratio = -.7134E-01 +/- 0.3737E-02 ( 5.238 %)
accumulated results ABS virtual = 0.1177E+00 +/- 0.1185E-01 ( 10.068 %)
accumulated results Born = 0.3948E-01 +/- 0.2762E-02 ( 6.994 %)
accumulated results V 2 = 0.2395E-01 +/- 0.1186E-01 ( 49.526 %)
accumulated results B 2 = 0.3948E-01 +/- 0.2762E-02 ( 6.994 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 385 256 0.2953E-01 0.2953E-01 0.5000E-02
channel 2 : 1 T 267 256 0.3451E-01 0.3449E-01 0.5000E-02
channel 3 : 2 T 5744 1531 0.8014E+00 0.7944E+00 0.5000E-02
channel 4 : 2 T 5967 1597 0.7944E+00 0.7807E+00 0.5000E-02
channel 5 : 3 T 18430 4996 0.2431E+01 0.2405E+01 0.5000E-02
channel 6 : 3 T 18358 4848 0.2444E+01 0.2418E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5347844261800319 +/- 2.5279860801978513E-002
Final result: 6.4626763768787967 +/- 2.5654223498313079E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 286
Stability unknown: 0
Stable PS point: 286
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 286
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 286
counters for the granny resonances
ntot 0
Time spent in Born : 0.322384655
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 8.90818787
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 2.12861276
Time spent in Integrated_CT : 1.52625132
Time spent in Virtuals : 6.82562208
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 5.14969683
Time spent in N1body_prefactor : 6.55168444E-02
Time spent in Adding_alphas_pdf : 1.27479792
Time spent in Reweight_scale : 5.31879091
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.88669157
Time spent in Applying_cuts : 0.393940210
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 10.7568741
Time spent in Other_tasks : 3.37625885
Time spent in Total : 47.9336243
Time in seconds: 51
LOG file for integration channel /P0_dxd_wpwm/all_G1_10, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
16773
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9836011002712993E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 10
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.1321E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 256 0.8846E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1531 0.1932E+02 0.0000E+00 0.5972E-02
channel 4 : 2 F 0 1597 0.2029E+02 0.0000E+00 0.6050E-02
channel 5 : 3 F 0 4996 0.6184E+02 0.0000E+00 0.5635E-02
channel 6 : 3 F 0 4848 0.6237E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 4 , 31570
with seed 52
Ranmar initialization seeds 5028 10920
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.810365D+02 0.810365D+02 1.00
muF1, muF1_reference: 0.810365D+02 0.810365D+02 1.00
muF2, muF2_reference: 0.810365D+02 0.810365D+02 1.00
QES, QES_reference: 0.810365D+02 0.810365D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12014162421542583
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
REAL 2: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.11995725792275094
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -5.6355005451037603E-005 OLP: -5.6355005451038003E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.4993499685658350E-004 OLP: -1.4993499685665094E-004
FINITE:
OLP: -1.1111298731888850E-002
BORN: 0.20543709295118540
MOMENTA (Exyzm):
1 93.480014434471272 0.0000000000000000 0.0000000000000000 93.480014434471272 0.0000000000000000
2 93.480014434471272 -0.0000000000000000 -0.0000000000000000 -93.480014434471272 0.0000000000000000
3 93.480014434471272 4.0227839452509118 14.705066027533128 45.153912124252116 80.418999999999997
4 93.480014434471272 -4.0227839452509118 -14.705066027533128 -45.153912124252116 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -5.6355005451037603E-005 OLP: -5.6355005451038003E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.4993499685658350E-004 OLP: -1.4993499685665094E-004
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6588E+01 +/- 0.2867E-01 ( 0.435 %)
Integral = 0.6503E+01 +/- 0.2907E-01 ( 0.447 %)
Virtual = 0.2224E-01 +/- 0.1354E-01 ( 60.908 %)
Virtual ratio = -.7712E-01 +/- 0.3781E-02 ( 4.904 %)
ABS virtual = 0.1237E+00 +/- 0.1353E-01 ( 10.940 %)
Born = 0.3908E-01 +/- 0.3122E-02 ( 7.988 %)
V 2 = 0.2224E-01 +/- 0.1354E-01 ( 60.908 %)
B 2 = 0.3908E-01 +/- 0.3122E-02 ( 7.988 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6588E+01 +/- 0.2867E-01 ( 0.435 %)
accumulated results Integral = 0.6503E+01 +/- 0.2907E-01 ( 0.447 %)
accumulated results Virtual = 0.2224E-01 +/- 0.1354E-01 ( 60.908 %)
accumulated results Virtual ratio = -.7712E-01 +/- 0.3781E-02 ( 4.904 %)
accumulated results ABS virtual = 0.1237E+00 +/- 0.1353E-01 ( 10.940 %)
accumulated results Born = 0.3908E-01 +/- 0.3122E-02 ( 7.988 %)
accumulated results V 2 = 0.2224E-01 +/- 0.1354E-01 ( 60.908 %)
accumulated results B 2 = 0.3908E-01 +/- 0.3122E-02 ( 7.988 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 392 256 0.3435E-01 0.3202E-01 0.5000E-02
channel 2 : 1 T 260 256 0.3875E-01 0.3407E-01 0.5442E-02
channel 3 : 2 T 5849 1531 0.8065E+00 0.7884E+00 0.5000E-02
channel 4 : 2 T 5925 1597 0.7918E+00 0.7705E+00 0.6768E-02
channel 5 : 3 T 18458 4996 0.2471E+01 0.2452E+01 0.5000E-02
channel 6 : 3 T 18270 4848 0.2446E+01 0.2426E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5884894546104640 +/- 2.8673043738212889E-002
Final result: 6.5034032621603464 +/- 2.9065556770092444E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 261
Stability unknown: 0
Stable PS point: 261
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 261
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 261
counters for the granny resonances
ntot 0
Time spent in Born : 0.315177023
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 8.85748863
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 2.09302139
Time spent in Integrated_CT : 1.50441694
Time spent in Virtuals : 6.17673254
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 5.11356354
Time spent in N1body_prefactor : 6.51674867E-02
Time spent in Adding_alphas_pdf : 1.26838064
Time spent in Reweight_scale : 5.43662024
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.82271504
Time spent in Applying_cuts : 0.386391014
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 10.6318140
Time spent in Other_tasks : 3.27708435
Time spent in Total : 46.9485741
Time in seconds: 50
LOG file for integration channel /P0_dxd_wpwm/all_G1_11, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
16784
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9836011002712993E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 11
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.1321E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 256 0.8846E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1531 0.1932E+02 0.0000E+00 0.5972E-02
channel 4 : 2 F 0 1597 0.2029E+02 0.0000E+00 0.6050E-02
channel 5 : 3 F 0 4996 0.6184E+02 0.0000E+00 0.5635E-02
channel 6 : 3 F 0 4848 0.6237E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 4 , 34727
with seed 52
Ranmar initialization seeds 5028 14077
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.807035D+02 0.807035D+02 1.00
muF1, muF1_reference: 0.807035D+02 0.807035D+02 1.00
muF2, muF2_reference: 0.807035D+02 0.807035D+02 1.00
QES, QES_reference: 0.807035D+02 0.807035D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12021767159494229
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 2: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
REAL 1: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11980868170270377
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -8.2884590154286389E-005 OLP: -8.2884590154287772E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.8222727142706125E-004 OLP: -1.8222727142701127E-004
FINITE:
OLP: -1.9852488642015456E-002
BORN: 0.30214830280765287
MOMENTA (Exyzm):
1 105.05755520016614 0.0000000000000000 0.0000000000000000 105.05755520016614 0.0000000000000000
2 105.05755520016614 -0.0000000000000000 -0.0000000000000000 -105.05755520016614 0.0000000000000000
3 105.05755520016614 9.1238913245233135 16.074264491680534 65.024971909149954 80.418999999999997
4 105.05755520016614 -9.1238913245233135 -16.074264491680534 -65.024971909149954 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -8.2884590154286389E-005 OLP: -8.2884590154287772E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.8222727142706103E-004 OLP: -1.8222727142701127E-004
ABS integral = 0.6559E+01 +/- 0.2741E-01 ( 0.418 %)
Integral = 0.6489E+01 +/- 0.2774E-01 ( 0.427 %)
Virtual = 0.1783E-01 +/- 0.1258E-01 ( 70.571 %)
Virtual ratio = -.7623E-01 +/- 0.2921E-02 ( 3.831 %)
ABS virtual = 0.1045E+00 +/- 0.1257E-01 ( 12.027 %)
Born = 0.3942E-01 +/- 0.4135E-02 ( 10.488 %)
V 2 = 0.1783E-01 +/- 0.1258E-01 ( 70.571 %)
B 2 = 0.3942E-01 +/- 0.4135E-02 ( 10.488 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6559E+01 +/- 0.2741E-01 ( 0.418 %)
accumulated results Integral = 0.6489E+01 +/- 0.2774E-01 ( 0.427 %)
accumulated results Virtual = 0.1783E-01 +/- 0.1258E-01 ( 70.571 %)
accumulated results Virtual ratio = -.7623E-01 +/- 0.2921E-02 ( 3.831 %)
accumulated results ABS virtual = 0.1045E+00 +/- 0.1257E-01 ( 12.027 %)
accumulated results Born = 0.3942E-01 +/- 0.4135E-02 ( 10.488 %)
accumulated results V 2 = 0.1783E-01 +/- 0.1258E-01 ( 70.571 %)
accumulated results B 2 = 0.3942E-01 +/- 0.4135E-02 ( 10.488 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 412 256 0.3277E-01 0.3277E-01 0.5000E-02
channel 2 : 1 T 279 256 0.3527E-01 0.3524E-01 0.5631E-02
channel 3 : 2 T 5759 1531 0.8048E+00 0.7935E+00 0.5000E-02
channel 4 : 2 T 6082 1597 0.7997E+00 0.7867E+00 0.5000E-02
channel 5 : 3 T 18369 4996 0.2468E+01 0.2447E+01 0.5000E-02
channel 6 : 3 T 18250 4848 0.2418E+01 0.2394E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5585530258074085 +/- 2.7405214266303841E-002
Final result: 6.4890491160251811 +/- 2.7739788570517749E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 239
Stability unknown: 0
Stable PS point: 239
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 239
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 239
counters for the granny resonances
ntot 0
Time spent in Born : 0.316679686
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 8.90950012
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 2.12440920
Time spent in Integrated_CT : 1.51388884
Time spent in Virtuals : 5.60979748
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 5.15889931
Time spent in N1body_prefactor : 6.59243762E-02
Time spent in Adding_alphas_pdf : 1.28352225
Time spent in Reweight_scale : 5.37636566
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.88690901
Time spent in Applying_cuts : 0.390171468
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 10.6135178
Time spent in Other_tasks : 3.32322693
Time spent in Total : 46.5728111
Time in seconds: 48
LOG file for integration channel /P0_dxd_wpwm/all_G1_12, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
16779
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9836011002712993E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 12
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.1321E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 256 0.8846E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1531 0.1932E+02 0.0000E+00 0.5972E-02
channel 4 : 2 F 0 1597 0.2029E+02 0.0000E+00 0.6050E-02
channel 5 : 3 F 0 4996 0.6184E+02 0.0000E+00 0.5635E-02
channel 6 : 3 F 0 4848 0.6237E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 4 , 37884
with seed 52
Ranmar initialization seeds 5028 17234
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.804976D+02 0.804976D+02 1.00
muF1, muF1_reference: 0.804976D+02 0.804976D+02 1.00
muF2, muF2_reference: 0.804976D+02 0.804976D+02 1.00
QES, QES_reference: 0.804976D+02 0.804976D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12026491195422163
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11948047821591161
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -6.3006163917354502E-005 OLP: -6.3006163917354231E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.2666853988369876E-004 OLP: -1.2666853988345934E-004
FINITE:
OLP: -1.4313517025435232E-002
BORN: 0.22968329165424400
MOMENTA (Exyzm):
1 100.96309222028772 0.0000000000000000 0.0000000000000000 100.96309222028772 0.0000000000000000
2 100.96309222028772 -0.0000000000000000 -0.0000000000000000 -100.96309222028772 0.0000000000000000
3 100.96309222028772 -13.259227722854215 -20.356736370635627 56.001130294059770 80.418999999999997
4 100.96309222028772 13.259227722854215 20.356736370635627 -56.001130294059770 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -6.3006163917354502E-005 OLP: -6.3006163917354231E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.2666853988369865E-004 OLP: -1.2666853988345934E-004
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6549E+01 +/- 0.2666E-01 ( 0.407 %)
Integral = 0.6474E+01 +/- 0.2703E-01 ( 0.417 %)
Virtual = 0.8109E-02 +/- 0.9693E-02 ( 119.529 %)
Virtual ratio = -.8027E-01 +/- 0.4449E-02 ( 5.542 %)
ABS virtual = 0.1001E+00 +/- 0.9683E-02 ( 9.668 %)
Born = 0.3648E-01 +/- 0.2723E-02 ( 7.465 %)
V 2 = 0.8109E-02 +/- 0.9693E-02 ( 119.529 %)
B 2 = 0.3648E-01 +/- 0.2723E-02 ( 7.465 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6549E+01 +/- 0.2666E-01 ( 0.407 %)
accumulated results Integral = 0.6474E+01 +/- 0.2703E-01 ( 0.417 %)
accumulated results Virtual = 0.8109E-02 +/- 0.9693E-02 ( 119.529 %)
accumulated results Virtual ratio = -.8027E-01 +/- 0.4449E-02 ( 5.542 %)
accumulated results ABS virtual = 0.1001E+00 +/- 0.9683E-02 ( 9.668 %)
accumulated results Born = 0.3648E-01 +/- 0.2723E-02 ( 7.465 %)
accumulated results V 2 = 0.8109E-02 +/- 0.9693E-02 ( 119.529 %)
accumulated results B 2 = 0.3648E-01 +/- 0.2723E-02 ( 7.465 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 405 256 0.3530E-01 0.3492E-01 0.5000E-02
channel 2 : 1 T 294 256 0.3942E-01 0.3938E-01 0.5000E-02
channel 3 : 2 T 5715 1531 0.7954E+00 0.7862E+00 0.5000E-02
channel 4 : 2 T 6059 1597 0.8033E+00 0.7865E+00 0.5000E-02
channel 5 : 3 T 18278 4996 0.2427E+01 0.2399E+01 0.5000E-02
channel 6 : 3 T 18405 4848 0.2448E+01 0.2429E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5486153737095192 +/- 2.6660156476718877E-002
Final result: 6.4741664343712193 +/- 2.7027562382826074E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 244
Stability unknown: 0
Stable PS point: 244
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 244
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 244
counters for the granny resonances
ntot 0
Time spent in Born : 0.322946161
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 9.18622589
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 2.16779232
Time spent in Integrated_CT : 1.51994610
Time spent in Virtuals : 5.75056362
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 5.31444359
Time spent in N1body_prefactor : 6.55649453E-02
Time spent in Adding_alphas_pdf : 1.27774262
Time spent in Reweight_scale : 5.37280560
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.83575106
Time spent in Applying_cuts : 0.387935370
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 10.9027367
Time spent in Other_tasks : 3.30583954
Time spent in Total : 47.4102936
Time in seconds: 50
LOG file for integration channel /P0_dxd_wpwm/all_G1_13, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
16786
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9836011002712993E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 13
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.1321E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 256 0.8846E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1531 0.1932E+02 0.0000E+00 0.5972E-02
channel 4 : 2 F 0 1597 0.2029E+02 0.0000E+00 0.6050E-02
channel 5 : 3 F 0 4996 0.6184E+02 0.0000E+00 0.5635E-02
channel 6 : 3 F 0 4848 0.6237E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 4 , 41041
with seed 52
Ranmar initialization seeds 5028 20391
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.804536D+02 0.804536D+02 1.00
muF1, muF1_reference: 0.804536D+02 0.804536D+02 1.00
muF2, muF2_reference: 0.804536D+02 0.804536D+02 1.00
QES, QES_reference: 0.804536D+02 0.804536D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12027501321164276
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 2: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11951170507990867
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -5.4585687947729219E-005 OLP: -5.4585687947729375E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.1510885075908747E-004 OLP: -1.1510885075873902E-004
FINITE:
OLP: -1.1605404002498695E-002
BORN: 0.19898720546598012
MOMENTA (Exyzm):
1 97.130833409752015 0.0000000000000000 0.0000000000000000 97.130833409752015 0.0000000000000000
2 97.130833409752015 -0.0000000000000000 -0.0000000000000000 -97.130833409752015 0.0000000000000000
3 97.130833409752015 -6.9195605775103575 -22.764636630435469 49.000757528546430 80.418999999999997
4 97.130833409752015 6.9195605775103575 22.764636630435469 -49.000757528546430 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -5.4585687947729219E-005 OLP: -5.4585687947729375E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.1510885075908747E-004 OLP: -1.1510885075873902E-004
ABS integral = 0.6573E+01 +/- 0.2737E-01 ( 0.416 %)
Integral = 0.6482E+01 +/- 0.2780E-01 ( 0.429 %)
Virtual = 0.2607E-01 +/- 0.1352E-01 ( 51.869 %)
Virtual ratio = -.8313E-01 +/- 0.4305E-02 ( 5.179 %)
ABS virtual = 0.1371E+00 +/- 0.1351E-01 ( 9.852 %)
Born = 0.4357E-01 +/- 0.3258E-02 ( 7.478 %)
V 2 = 0.2607E-01 +/- 0.1352E-01 ( 51.869 %)
B 2 = 0.4357E-01 +/- 0.3258E-02 ( 7.478 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6573E+01 +/- 0.2737E-01 ( 0.416 %)
accumulated results Integral = 0.6482E+01 +/- 0.2780E-01 ( 0.429 %)
accumulated results Virtual = 0.2607E-01 +/- 0.1352E-01 ( 51.869 %)
accumulated results Virtual ratio = -.8313E-01 +/- 0.4305E-02 ( 5.179 %)
accumulated results ABS virtual = 0.1371E+00 +/- 0.1351E-01 ( 9.852 %)
accumulated results Born = 0.4357E-01 +/- 0.3258E-02 ( 7.478 %)
accumulated results V 2 = 0.2607E-01 +/- 0.1352E-01 ( 51.869 %)
accumulated results B 2 = 0.4357E-01 +/- 0.3258E-02 ( 7.478 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 406 256 0.3662E-01 0.3544E-01 0.5000E-02
channel 2 : 1 T 271 256 0.3511E-01 0.3511E-01 0.5000E-02
channel 3 : 2 T 5813 1531 0.7969E+00 0.7864E+00 0.5000E-02
channel 4 : 2 T 6132 1597 0.8126E+00 0.8002E+00 0.5000E-02
channel 5 : 3 T 18261 4996 0.2437E+01 0.2402E+01 0.5000E-02
channel 6 : 3 T 18265 4848 0.2455E+01 0.2423E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5730954853302412 +/- 2.7365197018716942E-002
Final result: 6.4817529646685381 +/- 2.7804940656651202E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 283
Stability unknown: 0
Stable PS point: 283
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 283
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 283
counters for the granny resonances
ntot 0
Time spent in Born : 0.316797853
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 9.14845181
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 2.14865541
Time spent in Integrated_CT : 1.51542997
Time spent in Virtuals : 6.70239401
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 5.25292253
Time spent in N1body_prefactor : 6.55726641E-02
Time spent in Adding_alphas_pdf : 1.25787926
Time spent in Reweight_scale : 5.25309277
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.84152269
Time spent in Applying_cuts : 0.390948087
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 10.9341125
Time spent in Other_tasks : 3.26852036
Time spent in Total : 48.0963020
Time in seconds: 51
LOG file for integration channel /P0_dxd_wpwm/all_G1_14, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
853
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9836011002712993E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 14
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.1321E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 256 0.8846E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1531 0.1932E+02 0.0000E+00 0.5972E-02
channel 4 : 2 F 0 1597 0.2029E+02 0.0000E+00 0.6050E-02
channel 5 : 3 F 0 4996 0.6184E+02 0.0000E+00 0.5635E-02
channel 6 : 3 F 0 4848 0.6237E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 4 , 44198
with seed 52
Ranmar initialization seeds 5028 23548
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.804660D+02 0.804660D+02 1.00
muF1, muF1_reference: 0.804660D+02 0.804660D+02 1.00
muF2, muF2_reference: 0.804660D+02 0.804660D+02 1.00
QES, QES_reference: 0.804660D+02 0.804660D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12027216285818525
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12021496159256397
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -6.1767096743360549E-005 OLP: -6.1767096743346847E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.8377259503666926E-004 OLP: -1.8377259503678532E-004
FINITE:
OLP: -1.2285955968748121E-002
BORN: 0.22516638395173802
MOMENTA (Exyzm):
1 93.123395474756038 0.0000000000000000 0.0000000000000000 93.123395474756038 0.0000000000000000
2 93.123395474756038 -0.0000000000000000 -0.0000000000000000 -93.123395474756038 0.0000000000000000
3 93.123395474756038 2.7080173421224161 6.3579046505022259 46.443459327204529 80.418999999999997
4 93.123395474756038 -2.7080173421224161 -6.3579046505022259 -46.443459327204529 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -6.1767096743360549E-005 OLP: -6.1767096743346847E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.8377259503666937E-004 OLP: -1.8377259503678532E-004
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6511E+01 +/- 0.2520E-01 ( 0.387 %)
Integral = 0.6430E+01 +/- 0.2562E-01 ( 0.398 %)
Virtual = 0.6664E-03 +/- 0.9070E-02 ( ******* %)
Virtual ratio = -.8675E-01 +/- 0.5766E-02 ( 6.647 %)
ABS virtual = 0.9739E-01 +/- 0.9059E-02 ( 9.302 %)
Born = 0.3523E-01 +/- 0.2617E-02 ( 7.428 %)
V 2 = 0.6664E-03 +/- 0.9070E-02 ( ******* %)
B 2 = 0.3523E-01 +/- 0.2617E-02 ( 7.428 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6511E+01 +/- 0.2520E-01 ( 0.387 %)
accumulated results Integral = 0.6430E+01 +/- 0.2562E-01 ( 0.398 %)
accumulated results Virtual = 0.6664E-03 +/- 0.9070E-02 ( ******* %)
accumulated results Virtual ratio = -.8675E-01 +/- 0.5766E-02 ( 6.647 %)
accumulated results ABS virtual = 0.9739E-01 +/- 0.9059E-02 ( 9.302 %)
accumulated results Born = 0.3523E-01 +/- 0.2617E-02 ( 7.428 %)
accumulated results V 2 = 0.6664E-03 +/- 0.9070E-02 ( ******* %)
accumulated results B 2 = 0.3523E-01 +/- 0.2617E-02 ( 7.428 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 395 256 0.3955E-01 0.3749E-01 0.5000E-02
channel 2 : 1 T 254 256 0.3197E-01 0.3107E-01 0.5000E-02
channel 3 : 2 T 5859 1531 0.8059E+00 0.7909E+00 0.5000E-02
channel 4 : 2 T 5849 1597 0.7721E+00 0.7641E+00 0.5000E-02
channel 5 : 3 T 18351 4996 0.2449E+01 0.2417E+01 0.5000E-02
channel 6 : 3 T 18441 4848 0.2412E+01 0.2389E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5106361583561672 +/- 2.5200702593373120E-002
Final result: 6.4295864200588495 +/- 2.5620564698401443E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 249
Stability unknown: 0
Stable PS point: 249
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 249
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 249
counters for the granny resonances
ntot 0
Time spent in Born : 0.244030163
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.68437481
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.50966394
Time spent in Integrated_CT : 1.22241783
Time spent in Virtuals : 4.55188942
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.65846157
Time spent in N1body_prefactor : 4.80488241E-02
Time spent in Adding_alphas_pdf : 0.858016849
Time spent in Reweight_scale : 3.80945468
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.23076737
Time spent in Applying_cuts : 0.254470021
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.76709604
Time spent in Other_tasks : 2.14619064
Time spent in Total : 31.9848824
Time in seconds: 39
LOG file for integration channel /P0_dxd_wpwm/all_G1_15, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
857
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9836011002712993E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 15
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.1321E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 256 0.8846E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1531 0.1932E+02 0.0000E+00 0.5972E-02
channel 4 : 2 F 0 1597 0.2029E+02 0.0000E+00 0.6050E-02
channel 5 : 3 F 0 4996 0.6184E+02 0.0000E+00 0.5635E-02
channel 6 : 3 F 0 4848 0.6237E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 4 , 47355
with seed 52
Ranmar initialization seeds 5028 26705
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.812295D+02 0.812295D+02 1.00
muF1, muF1_reference: 0.812295D+02 0.812295D+02 1.00
muF2, muF2_reference: 0.812295D+02 0.812295D+02 1.00
QES, QES_reference: 0.812295D+02 0.812295D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12009774424429155
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 3: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
REAL 1: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12022543149716196
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -8.2524072407836506E-005 OLP: -8.2524072407833362E-005
COEFFICIENT SINGLE POLE:
MadFKS: -2.2859869981540332E-004 OLP: -2.2859869981546599E-004
FINITE:
OLP: -1.9428799146019381E-002
BORN: 0.30083406785735506
MOMENTA (Exyzm):
1 100.98071530033258 0.0000000000000000 0.0000000000000000 100.98071530033258 0.0000000000000000
2 100.98071530033258 -0.0000000000000000 -0.0000000000000000 -100.98071530033258 0.0000000000000000
3 100.98071530033258 1.1029630015503038 6.2579740433216644 60.741341235250516 80.418999999999997
4 100.98071530033258 -1.1029630015503038 -6.2579740433216644 -60.741341235250516 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -8.2524072407836506E-005 OLP: -8.2524072407833362E-005
COEFFICIENT SINGLE POLE:
MadFKS: -2.2859869981540332E-004 OLP: -2.2859869981546599E-004
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6547E+01 +/- 0.2579E-01 ( 0.394 %)
Integral = 0.6469E+01 +/- 0.2619E-01 ( 0.405 %)
Virtual = 0.8335E-02 +/- 0.1045E-01 ( 125.328 %)
Virtual ratio = -.7412E-01 +/- 0.2566E-02 ( 3.462 %)
ABS virtual = 0.1061E+00 +/- 0.1044E-01 ( 9.840 %)
Born = 0.3803E-01 +/- 0.2728E-02 ( 7.173 %)
V 2 = 0.8335E-02 +/- 0.1045E-01 ( 125.328 %)
B 2 = 0.3803E-01 +/- 0.2728E-02 ( 7.173 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6547E+01 +/- 0.2579E-01 ( 0.394 %)
accumulated results Integral = 0.6469E+01 +/- 0.2619E-01 ( 0.405 %)
accumulated results Virtual = 0.8335E-02 +/- 0.1045E-01 ( 125.328 %)
accumulated results Virtual ratio = -.7412E-01 +/- 0.2566E-02 ( 3.462 %)
accumulated results ABS virtual = 0.1061E+00 +/- 0.1044E-01 ( 9.840 %)
accumulated results Born = 0.3803E-01 +/- 0.2728E-02 ( 7.173 %)
accumulated results V 2 = 0.8335E-02 +/- 0.1045E-01 ( 125.328 %)
accumulated results B 2 = 0.3803E-01 +/- 0.2728E-02 ( 7.173 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 421 256 0.4449E-01 0.3837E-01 0.5000E-02
channel 2 : 1 T 288 256 0.3458E-01 0.3451E-01 0.5000E-02
channel 3 : 2 T 5727 1531 0.7970E+00 0.7917E+00 0.5000E-02
channel 4 : 2 T 6016 1597 0.7912E+00 0.7785E+00 0.5000E-02
channel 5 : 3 T 18465 4996 0.2468E+01 0.2442E+01 0.5000E-02
channel 6 : 3 T 18229 4848 0.2412E+01 0.2383E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5470654608547720 +/- 2.5794937112088419E-002
Final result: 6.4688368841895150 +/- 2.6193404289829938E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 254
Stability unknown: 0
Stable PS point: 254
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 254
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 254
counters for the granny resonances
ntot 0
Time spent in Born : 0.246434808
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.67927170
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.52082002
Time spent in Integrated_CT : 1.22831202
Time spent in Virtuals : 4.63047314
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.65538692
Time spent in N1body_prefactor : 4.82591987E-02
Time spent in Adding_alphas_pdf : 0.861211777
Time spent in Reweight_scale : 3.80491567
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.21461391
Time spent in Applying_cuts : 0.263347626
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.74791241
Time spent in Other_tasks : 2.14958954
Time spent in Total : 32.0505486
Time in seconds: 38
LOG file for integration channel /P0_dxd_wpwm/all_G1_16, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
854
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9836011002712993E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 16
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.1321E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 256 0.8846E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1531 0.1932E+02 0.0000E+00 0.5972E-02
channel 4 : 2 F 0 1597 0.2029E+02 0.0000E+00 0.6050E-02
channel 5 : 3 F 0 4996 0.6184E+02 0.0000E+00 0.5635E-02
channel 6 : 3 F 0 4848 0.6237E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 4 , 50512
with seed 52
Ranmar initialization seeds 5028 29862
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.823823D+02 0.823823D+02 1.00
muF1, muF1_reference: 0.823823D+02 0.823823D+02 1.00
muF2, muF2_reference: 0.823823D+02 0.823823D+02 1.00
QES, QES_reference: 0.823823D+02 0.823823D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.11983839305937133
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11987063351122898
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -6.0683274725626466E-005 OLP: -6.0683274725627591E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.5421421666938595E-004 OLP: -1.5421421666932274E-004
FINITE:
OLP: -1.2835641052441327E-002
BORN: 0.22121540847373497
MOMENTA (Exyzm):
1 96.005330105423312 0.0000000000000000 0.0000000000000000 96.005330105423312 0.0000000000000000
2 96.005330105423312 -0.0000000000000000 -0.0000000000000000 -96.005330105423312 0.0000000000000000
3 96.005330105423312 1.7193486576986097 17.113983399281167 49.537493477705333 80.418999999999997
4 96.005330105423312 -1.7193486576986097 -17.113983399281167 -49.537493477705333 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -6.0683274725626466E-005 OLP: -6.0683274725627591E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.5421421666938573E-004 OLP: -1.5421421666932274E-004
ABS integral = 0.6540E+01 +/- 0.2771E-01 ( 0.424 %)
Integral = 0.6440E+01 +/- 0.2818E-01 ( 0.438 %)
Virtual = -.1189E-01 +/- 0.1346E-01 ( 113.197 %)
Virtual ratio = -.8406E-01 +/- 0.3391E-02 ( 4.034 %)
ABS virtual = 0.1140E+00 +/- 0.1345E-01 ( 11.804 %)
Born = 0.4263E-01 +/- 0.4710E-02 ( 11.047 %)
V 2 = -.1189E-01 +/- 0.1346E-01 ( 113.197 %)
B 2 = 0.4263E-01 +/- 0.4710E-02 ( 11.047 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6540E+01 +/- 0.2771E-01 ( 0.424 %)
accumulated results Integral = 0.6440E+01 +/- 0.2818E-01 ( 0.438 %)
accumulated results Virtual = -.1189E-01 +/- 0.1346E-01 ( 113.197 %)
accumulated results Virtual ratio = -.8406E-01 +/- 0.3391E-02 ( 4.034 %)
accumulated results ABS virtual = 0.1140E+00 +/- 0.1345E-01 ( 11.804 %)
accumulated results Born = 0.4263E-01 +/- 0.4710E-02 ( 11.047 %)
accumulated results V 2 = -.1189E-01 +/- 0.1346E-01 ( 113.197 %)
accumulated results B 2 = 0.4263E-01 +/- 0.4710E-02 ( 11.047 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 400 256 0.3522E-01 0.3506E-01 0.5000E-02
channel 2 : 1 T 260 256 0.2801E-01 0.2799E-01 0.5000E-02
channel 3 : 2 T 5787 1531 0.7926E+00 0.7837E+00 0.5000E-02
channel 4 : 2 T 5956 1597 0.7823E+00 0.7651E+00 0.5000E-02
channel 5 : 3 T 18481 4996 0.2471E+01 0.2433E+01 0.5000E-02
channel 6 : 3 T 18269 4848 0.2431E+01 0.2395E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5400475418502433 +/- 2.7710736815032996E-002
Final result: 6.4398051639768612 +/- 2.8184331088234763E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 272
Stability unknown: 0
Stable PS point: 272
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 272
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 272
counters for the granny resonances
ntot 0
Time spent in Born : 0.244119138
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.66180849
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.50381851
Time spent in Integrated_CT : 1.21943760
Time spent in Virtuals : 4.95213938
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.63029337
Time spent in N1body_prefactor : 4.80121151E-02
Time spent in Adding_alphas_pdf : 0.858412385
Time spent in Reweight_scale : 3.78784704
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.24873996
Time spent in Applying_cuts : 0.258227557
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.74857044
Time spent in Other_tasks : 2.15073013
Time spent in Total : 32.3121567
Time in seconds: 39
LOG file for integration channel /P0_dxd_wpwm/all_G1_17, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
855
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9836011002712993E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 17
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.1321E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 256 0.8846E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1531 0.1932E+02 0.0000E+00 0.5972E-02
channel 4 : 2 F 0 1597 0.2029E+02 0.0000E+00 0.6050E-02
channel 5 : 3 F 0 4996 0.6184E+02 0.0000E+00 0.5635E-02
channel 6 : 3 F 0 4848 0.6237E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 4 , 53669
with seed 52
Ranmar initialization seeds 5028 2938
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.811430D+02 0.811430D+02 1.00
muF1, muF1_reference: 0.811430D+02 0.811430D+02 1.00
muF2, muF2_reference: 0.811430D+02 0.811430D+02 1.00
QES, QES_reference: 0.811430D+02 0.811430D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12011739241193635
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11986580534658950
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -6.3062161527711319E-005 OLP: -6.3062161527712308E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.5894680446210271E-004 OLP: -1.5894680446213707E-004
FINITE:
OLP: -1.3639895058921190E-002
BORN: 0.22988742589559211
MOMENTA (Exyzm):
1 96.982602689092133 0.0000000000000000 0.0000000000000000 96.982602689092133 0.0000000000000000
2 96.982602689092133 -0.0000000000000000 -0.0000000000000000 -96.982602689092133 0.0000000000000000
3 96.982602689092133 7.6481981198126912 15.521112508372466 51.371293495227846 80.418999999999997
4 96.982602689092133 -7.6481981198126912 -15.521112508372466 -51.371293495227846 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -6.3062161527711319E-005 OLP: -6.3062161527712308E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.5894680446210281E-004 OLP: -1.5894680446213707E-004
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6541E+01 +/- 0.2573E-01 ( 0.393 %)
Integral = 0.6461E+01 +/- 0.2613E-01 ( 0.404 %)
Virtual = 0.1158E-01 +/- 0.1057E-01 ( 91.317 %)
Virtual ratio = -.7571E-01 +/- 0.4196E-02 ( 5.542 %)
ABS virtual = 0.1047E+00 +/- 0.1056E-01 ( 10.090 %)
Born = 0.3481E-01 +/- 0.2814E-02 ( 8.084 %)
V 2 = 0.1158E-01 +/- 0.1057E-01 ( 91.317 %)
B 2 = 0.3481E-01 +/- 0.2814E-02 ( 8.084 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6541E+01 +/- 0.2573E-01 ( 0.393 %)
accumulated results Integral = 0.6461E+01 +/- 0.2613E-01 ( 0.404 %)
accumulated results Virtual = 0.1158E-01 +/- 0.1057E-01 ( 91.317 %)
accumulated results Virtual ratio = -.7571E-01 +/- 0.4196E-02 ( 5.542 %)
accumulated results ABS virtual = 0.1047E+00 +/- 0.1056E-01 ( 10.090 %)
accumulated results Born = 0.3481E-01 +/- 0.2814E-02 ( 8.084 %)
accumulated results V 2 = 0.1158E-01 +/- 0.1057E-01 ( 91.317 %)
accumulated results B 2 = 0.3481E-01 +/- 0.2814E-02 ( 8.084 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 397 256 0.3092E-01 0.3092E-01 0.5000E-02
channel 2 : 1 T 239 256 0.2881E-01 0.2881E-01 0.5000E-02
channel 3 : 2 T 5761 1531 0.8051E+00 0.7907E+00 0.5000E-02
channel 4 : 2 T 6033 1597 0.8000E+00 0.7823E+00 0.5000E-02
channel 5 : 3 T 18058 4996 0.2397E+01 0.2374E+01 0.5000E-02
channel 6 : 3 T 18661 4848 0.2479E+01 0.2454E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5408875104378366 +/- 2.5726759959673429E-002
Final result: 6.4611966258853615 +/- 2.6133248068749129E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 255
Stability unknown: 0
Stable PS point: 255
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 255
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 255
counters for the granny resonances
ntot 0
Time spent in Born : 0.245530218
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.68242455
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.53294206
Time spent in Integrated_CT : 1.22821999
Time spent in Virtuals : 4.66093540
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.67211175
Time spent in N1body_prefactor : 4.78420779E-02
Time spent in Adding_alphas_pdf : 0.864301383
Time spent in Reweight_scale : 3.80440474
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.23597014
Time spent in Applying_cuts : 0.255779713
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.77366686
Time spent in Other_tasks : 2.14466858
Time spent in Total : 32.1487961
Time in seconds: 39
LOG file for integration channel /P0_dxd_wpwm/all_G1_18, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
862
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9836011002712993E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 18
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.1321E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 256 0.8846E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1531 0.1932E+02 0.0000E+00 0.5972E-02
channel 4 : 2 F 0 1597 0.2029E+02 0.0000E+00 0.6050E-02
channel 5 : 3 F 0 4996 0.6184E+02 0.0000E+00 0.5635E-02
channel 6 : 3 F 0 4848 0.6237E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 4 , 56826
with seed 52
Ranmar initialization seeds 5028 6095
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.804480D+02 0.804480D+02 1.00
muF1, muF1_reference: 0.804480D+02 0.804480D+02 1.00
muF2, muF2_reference: 0.804480D+02 0.804480D+02 1.00
QES, QES_reference: 0.804480D+02 0.804480D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12027629904535612
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 3: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 1: keeping split order 1
REAL 2: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12019436423147235
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -4.8842977339219419E-005 OLP: -4.8842977339216709E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.4033463461120873E-004 OLP: -1.4033463461243800E-004
FINITE:
OLP: -8.8807695069097782E-003
BORN: 0.17805267154783166
MOMENTA (Exyzm):
1 88.525708074733288 0.0000000000000000 0.0000000000000000 88.525708074733288 0.0000000000000000
2 88.525708074733288 -0.0000000000000000 -0.0000000000000000 -88.525708074733288 0.0000000000000000
3 88.525708074733288 -4.9376430722604923 -6.1577553235264126 36.156426253149519 80.418999999999997
4 88.525708074733288 4.9376430722604923 6.1577553235264126 -36.156426253149519 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -4.8842977339219419E-005 OLP: -4.8842977339216709E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.4033463461120873E-004 OLP: -1.4033463461243800E-004
ABS integral = 0.6542E+01 +/- 0.2506E-01 ( 0.383 %)
Integral = 0.6448E+01 +/- 0.2555E-01 ( 0.396 %)
Virtual = 0.1640E-02 +/- 0.1033E-01 ( 630.146 %)
Virtual ratio = -.7934E-01 +/- 0.3138E-02 ( 3.955 %)
ABS virtual = 0.1151E+00 +/- 0.1032E-01 ( 8.967 %)
Born = 0.4165E-01 +/- 0.3249E-02 ( 7.800 %)
V 2 = 0.1640E-02 +/- 0.1033E-01 ( 630.146 %)
B 2 = 0.4165E-01 +/- 0.3249E-02 ( 7.800 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6542E+01 +/- 0.2506E-01 ( 0.383 %)
accumulated results Integral = 0.6448E+01 +/- 0.2555E-01 ( 0.396 %)
accumulated results Virtual = 0.1640E-02 +/- 0.1033E-01 ( 630.146 %)
accumulated results Virtual ratio = -.7934E-01 +/- 0.3138E-02 ( 3.955 %)
accumulated results ABS virtual = 0.1151E+00 +/- 0.1032E-01 ( 8.967 %)
accumulated results Born = 0.4165E-01 +/- 0.3249E-02 ( 7.800 %)
accumulated results V 2 = 0.1640E-02 +/- 0.1033E-01 ( 630.146 %)
accumulated results B 2 = 0.4165E-01 +/- 0.3249E-02 ( 7.800 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 381 256 0.4293E-01 0.4106E-01 0.5000E-02
channel 2 : 1 T 252 256 0.3377E-01 0.3376E-01 0.5000E-02
channel 3 : 2 T 5653 1531 0.7883E+00 0.7623E+00 0.5413E-02
channel 4 : 2 T 5996 1597 0.7870E+00 0.7784E+00 0.5000E-02
channel 5 : 3 T 18322 4996 0.2448E+01 0.2412E+01 0.5000E-02
channel 6 : 3 T 18550 4848 0.2442E+01 0.2421E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5419897486260163 +/- 2.5061244959331423E-002
Final result: 6.4480846704650547 +/- 2.5551586726296833E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 280
Stability unknown: 0
Stable PS point: 280
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 280
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 280
counters for the granny resonances
ntot 0
Time spent in Born : 0.241377234
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.62862635
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.50734878
Time spent in Integrated_CT : 1.21091366
Time spent in Virtuals : 5.03322124
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.63252068
Time spent in N1body_prefactor : 4.77103963E-02
Time spent in Adding_alphas_pdf : 0.850978136
Time spent in Reweight_scale : 3.76143909
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.22813046
Time spent in Applying_cuts : 0.254930586
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.70320368
Time spent in Other_tasks : 2.14182091
Time spent in Total : 32.2422218
Time in seconds: 39
LOG file for integration channel /P0_dxd_wpwm/all_G1_19, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
863
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9836011002712993E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 19
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.1321E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 256 0.8846E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1531 0.1932E+02 0.0000E+00 0.5972E-02
channel 4 : 2 F 0 1597 0.2029E+02 0.0000E+00 0.6050E-02
channel 5 : 3 F 0 4996 0.6184E+02 0.0000E+00 0.5635E-02
channel 6 : 3 F 0 4848 0.6237E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 4 , 59983
with seed 52
Ranmar initialization seeds 5028 9252
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.812048D+02 0.812048D+02 1.00
muF1, muF1_reference: 0.812048D+02 0.812048D+02 1.00
muF2, muF2_reference: 0.812048D+02 0.812048D+02 1.00
QES, QES_reference: 0.812048D+02 0.812048D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12010335217666940
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.12027500607290119
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -4.4408211399680041E-005 OLP: -4.4408211399658567E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.2667485629399547E-004 OLP: -1.2667485629455863E-004
FINITE:
OLP: -7.3253939045518530E-003
BORN: 0.16188613203202140
MOMENTA (Exyzm):
1 86.326727157906632 0.0000000000000000 0.0000000000000000 86.326727157906632 0.0000000000000000
2 86.326727157906632 -0.0000000000000000 -0.0000000000000000 -86.326727157906632 0.0000000000000000
3 86.326727157906632 2.2905794660911365 0.57466523987342866 31.297144699912455 80.418999999999997
4 86.326727157906632 -2.2905794660911365 -0.57466523987342866 -31.297144699912451 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -4.4408211399680041E-005 OLP: -4.4408211399658567E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.2667485629399536E-004 OLP: -1.2667485629455863E-004
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6556E+01 +/- 0.2697E-01 ( 0.411 %)
Integral = 0.6487E+01 +/- 0.2731E-01 ( 0.421 %)
Virtual = 0.1425E-01 +/- 0.1004E-01 ( 70.463 %)
Virtual ratio = -.7551E-01 +/- 0.3663E-02 ( 4.851 %)
ABS virtual = 0.1029E+00 +/- 0.1003E-01 ( 9.750 %)
Born = 0.3704E-01 +/- 0.3254E-02 ( 8.785 %)
V 2 = 0.1425E-01 +/- 0.1004E-01 ( 70.463 %)
B 2 = 0.3704E-01 +/- 0.3254E-02 ( 8.785 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6556E+01 +/- 0.2697E-01 ( 0.411 %)
accumulated results Integral = 0.6487E+01 +/- 0.2731E-01 ( 0.421 %)
accumulated results Virtual = 0.1425E-01 +/- 0.1004E-01 ( 70.463 %)
accumulated results Virtual ratio = -.7551E-01 +/- 0.3663E-02 ( 4.851 %)
accumulated results ABS virtual = 0.1029E+00 +/- 0.1003E-01 ( 9.750 %)
accumulated results Born = 0.3704E-01 +/- 0.3254E-02 ( 8.785 %)
accumulated results V 2 = 0.1425E-01 +/- 0.1004E-01 ( 70.463 %)
accumulated results B 2 = 0.3704E-01 +/- 0.3254E-02 ( 8.785 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 394 256 0.3251E-01 0.3251E-01 0.5000E-02
channel 2 : 1 F 226 256 0.3293E-01 0.3293E-01 0.5000E-02
channel 3 : 2 T 5654 1531 0.7869E+00 0.7787E+00 0.5000E-02
channel 4 : 2 T 6012 1597 0.8000E+00 0.7868E+00 0.5000E-02
channel 5 : 3 T 18326 4996 0.2444E+01 0.2422E+01 0.5000E-02
channel 6 : 3 T 18539 4848 0.2460E+01 0.2435E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5558886771762737 +/- 2.6972515644938747E-002
Final result: 6.4873736038713483 +/- 2.7307474451371248E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 234
Stability unknown: 0
Stable PS point: 234
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 234
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 234
counters for the granny resonances
ntot 0
Time spent in Born : 0.251897424
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.68457365
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.54155970
Time spent in Integrated_CT : 1.23085356
Time spent in Virtuals : 4.28476954
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.67723918
Time spent in N1body_prefactor : 4.85451072E-02
Time spent in Adding_alphas_pdf : 0.856728673
Time spent in Reweight_scale : 3.80715561
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.23165250
Time spent in Applying_cuts : 0.256413639
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.75600529
Time spent in Other_tasks : 2.15694046
Time spent in Total : 31.7843361
Time in seconds: 38
LOG file for integration channel /P0_dxd_wpwm/all_G1_20, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
867
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9836011002712993E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 20
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.1321E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 256 0.8846E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1531 0.1932E+02 0.0000E+00 0.5972E-02
channel 4 : 2 F 0 1597 0.2029E+02 0.0000E+00 0.6050E-02
channel 5 : 3 F 0 4996 0.6184E+02 0.0000E+00 0.5635E-02
channel 6 : 3 F 0 4848 0.6237E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 4 , 63140
with seed 52
Ranmar initialization seeds 5028 12409
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.807531D+02 0.807531D+02 1.00
muF1, muF1_reference: 0.807531D+02 0.807531D+02 1.00
muF2, muF2_reference: 0.807531D+02 0.807531D+02 1.00
QES, QES_reference: 0.807531D+02 0.807531D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12020632646285916
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12004386680954329
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -5.6300375143668056E-005 OLP: -5.6300375143668842E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.5574152811492325E-004 OLP: -1.5574152811500508E-004
FINITE:
OLP: -1.0823703805607231E-002
BORN: 0.20523794308963886
MOMENTA (Exyzm):
1 92.642868445301701 0.0000000000000000 0.0000000000000000 92.642868445301701 0.0000000000000000
2 92.642868445301701 -0.0000000000000000 -0.0000000000000000 -92.642868445301701 0.0000000000000000
3 92.642868445301701 10.203889734477553 8.0978406348417860 44.111122453558217 80.418999999999997
4 92.642868445301701 -10.203889734477553 -8.0978406348417860 -44.111122453558217 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -5.6300375143668056E-005 OLP: -5.6300375143668842E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.5574152811492325E-004 OLP: -1.5574152811500508E-004
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6515E+01 +/- 0.2553E-01 ( 0.392 %)
Integral = 0.6426E+01 +/- 0.2599E-01 ( 0.404 %)
Virtual = -.6455E-02 +/- 0.9450E-02 ( 146.398 %)
Virtual ratio = -.7829E-01 +/- 0.2898E-02 ( 3.702 %)
ABS virtual = 0.1020E+00 +/- 0.9439E-02 ( 9.254 %)
Born = 0.3395E-01 +/- 0.2421E-02 ( 7.132 %)
V 2 = -.6455E-02 +/- 0.9450E-02 ( 146.398 %)
B 2 = 0.3395E-01 +/- 0.2421E-02 ( 7.132 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6515E+01 +/- 0.2553E-01 ( 0.392 %)
accumulated results Integral = 0.6426E+01 +/- 0.2599E-01 ( 0.404 %)
accumulated results Virtual = -.6455E-02 +/- 0.9450E-02 ( 146.398 %)
accumulated results Virtual ratio = -.7829E-01 +/- 0.2898E-02 ( 3.702 %)
accumulated results ABS virtual = 0.1020E+00 +/- 0.9439E-02 ( 9.254 %)
accumulated results Born = 0.3395E-01 +/- 0.2421E-02 ( 7.132 %)
accumulated results V 2 = -.6455E-02 +/- 0.9450E-02 ( 146.398 %)
accumulated results B 2 = 0.3395E-01 +/- 0.2421E-02 ( 7.132 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 379 256 0.3084E-01 0.3084E-01 0.5000E-02
channel 2 : 1 F 220 256 0.3152E-01 0.3152E-01 0.5000E-02
channel 3 : 2 T 5784 1531 0.7880E+00 0.7741E+00 0.5000E-02
channel 4 : 2 T 5916 1597 0.7891E+00 0.7703E+00 0.5000E-02
channel 5 : 3 T 18135 4996 0.2392E+01 0.2364E+01 0.5000E-02
channel 6 : 3 T 18718 4848 0.2483E+01 0.2455E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5145853724925287 +/- 2.5534711523614924E-002
Final result: 6.4258874117623757 +/- 2.5987947438875551E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 265
Stability unknown: 0
Stable PS point: 265
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 265
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 265
counters for the granny resonances
ntot 0
Time spent in Born : 0.246603191
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.66143703
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.53700626
Time spent in Integrated_CT : 1.22304583
Time spent in Virtuals : 4.81945372
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.66733122
Time spent in N1body_prefactor : 4.83974516E-02
Time spent in Adding_alphas_pdf : 0.861003995
Time spent in Reweight_scale : 3.84760189
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.23325610
Time spent in Applying_cuts : 0.261877835
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.74699211
Time spent in Other_tasks : 2.18256569
Time spent in Total : 32.3365707
Time in seconds: 38
LOG file for integration channel /P0_dxd_wpwm/all_G1_21, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
861
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9836011002712993E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 21
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.1321E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 256 0.8846E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1531 0.1932E+02 0.0000E+00 0.5972E-02
channel 4 : 2 F 0 1597 0.2029E+02 0.0000E+00 0.6050E-02
channel 5 : 3 F 0 4996 0.6184E+02 0.0000E+00 0.5635E-02
channel 6 : 3 F 0 4848 0.6237E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 4 , 66297
with seed 52
Ranmar initialization seeds 5028 15566
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.807224D+02 0.807224D+02 1.00
muF1, muF1_reference: 0.807224D+02 0.807224D+02 1.00
muF2, muF2_reference: 0.807224D+02 0.807224D+02 1.00
QES, QES_reference: 0.807224D+02 0.807224D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12021335674531011
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.12006626331202053
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -5.2300480624269520E-005 OLP: -5.2300480624268538E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.4505566513100317E-004 OLP: -1.4505566513115992E-004
FINITE:
OLP: -9.6877688767721334E-003
BORN: 0.19065668813988026
MOMENTA (Exyzm):
1 90.921911688237088 0.0000000000000000 0.0000000000000000 90.921911688237088 0.0000000000000000
2 90.921911688237088 -0.0000000000000000 -0.0000000000000000 -90.921911688237088 0.0000000000000000
3 90.921911688237088 5.7734402903002016 10.965911006981246 40.570859579812833 80.418999999999997
4 90.921911688237088 -5.7734402903002016 -10.965911006981246 -40.570859579812833 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -5.2300480624269520E-005 OLP: -5.2300480624268538E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.4505566513100328E-004 OLP: -1.4505566513115992E-004
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6563E+01 +/- 0.2848E-01 ( 0.434 %)
Integral = 0.6453E+01 +/- 0.2899E-01 ( 0.449 %)
Virtual = 0.8639E-03 +/- 0.1490E-01 ( ******* %)
Virtual ratio = -.8771E-01 +/- 0.5779E-02 ( 6.588 %)
ABS virtual = 0.1332E+00 +/- 0.1488E-01 ( 11.176 %)
Born = 0.3603E-01 +/- 0.2611E-02 ( 7.245 %)
V 2 = 0.8639E-03 +/- 0.1490E-01 ( ******* %)
B 2 = 0.3603E-01 +/- 0.2611E-02 ( 7.245 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6563E+01 +/- 0.2848E-01 ( 0.434 %)
accumulated results Integral = 0.6453E+01 +/- 0.2899E-01 ( 0.449 %)
accumulated results Virtual = 0.8639E-03 +/- 0.1490E-01 ( ******* %)
accumulated results Virtual ratio = -.8771E-01 +/- 0.5779E-02 ( 6.588 %)
accumulated results ABS virtual = 0.1332E+00 +/- 0.1488E-01 ( 11.176 %)
accumulated results Born = 0.3603E-01 +/- 0.2611E-02 ( 7.245 %)
accumulated results V 2 = 0.8639E-03 +/- 0.1490E-01 ( ******* %)
accumulated results B 2 = 0.3603E-01 +/- 0.2611E-02 ( 7.245 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 393 256 0.3362E-01 0.3361E-01 0.5000E-02
channel 2 : 1 T 259 256 0.2629E-01 0.2628E-01 0.5000E-02
channel 3 : 2 T 5715 1531 0.7915E+00 0.7686E+00 0.5000E-02
channel 4 : 2 T 6004 1597 0.8042E+00 0.7829E+00 0.5000E-02
channel 5 : 3 T 18342 4996 0.2461E+01 0.2426E+01 0.5000E-02
channel 6 : 3 T 18437 4848 0.2447E+01 0.2416E+01 0.5135E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5634868365019372 +/- 2.8482522881641843E-002
Final result: 6.4531522706483626 +/- 2.8990918800588385E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 254
Stability unknown: 0
Stable PS point: 254
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 254
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 254
counters for the granny resonances
ntot 0
Time spent in Born : 0.248927593
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.69779491
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.52922499
Time spent in Integrated_CT : 1.22963858
Time spent in Virtuals : 4.62796164
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.66826916
Time spent in N1body_prefactor : 4.78499234E-02
Time spent in Adding_alphas_pdf : 0.864091575
Time spent in Reweight_scale : 3.81485415
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.22100675
Time spent in Applying_cuts : 0.266475797
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.77405930
Time spent in Other_tasks : 2.16987419
Time spent in Total : 32.1600266
Time in seconds: 38
LOG file for integration channel /P0_dxd_wpwm/all_G1_22, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
15464
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9836011002712993E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 22
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.1321E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 256 0.8846E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1531 0.1932E+02 0.0000E+00 0.5972E-02
channel 4 : 2 F 0 1597 0.2029E+02 0.0000E+00 0.6050E-02
channel 5 : 3 F 0 4996 0.6184E+02 0.0000E+00 0.5635E-02
channel 6 : 3 F 0 4848 0.6237E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 4 , 69454
with seed 52
Ranmar initialization seeds 5028 18723
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.809204D+02 0.809204D+02 1.00
muF1, muF1_reference: 0.809204D+02 0.809204D+02 1.00
muF2, muF2_reference: 0.809204D+02 0.809204D+02 1.00
QES, QES_reference: 0.809204D+02 0.809204D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12016810570705617
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 2: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
REAL 1: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.12022764120611597
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -3.9710883749166584E-005 OLP: -3.9710883749165561E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.0475100421765372E-004 OLP: -1.0475100421745862E-004
FINITE:
OLP: -5.8966070506895080E-003
BORN: 0.14476244746421274
MOMENTA (Exyzm):
1 85.175240576906191 0.0000000000000000 0.0000000000000000 85.175240576906191 0.0000000000000000
2 85.175240576906191 -0.0000000000000000 -0.0000000000000000 -85.175240576906191 0.0000000000000000
3 85.175240576906191 6.1955363043210872 0.66202174841634664 27.363901465988203 80.418999999999997
4 85.175240576906191 -6.1955363043210872 -0.66202174841634664 -27.363901465988206 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -3.9710883749166584E-005 OLP: -3.9710883749165561E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.0475100421765361E-004 OLP: -1.0475100421745862E-004
ABS integral = 0.6527E+01 +/- 0.2754E-01 ( 0.422 %)
Integral = 0.6428E+01 +/- 0.2800E-01 ( 0.436 %)
Virtual = 0.4876E-02 +/- 0.1309E-01 ( 268.529 %)
Virtual ratio = -.8271E-01 +/- 0.4603E-02 ( 5.565 %)
ABS virtual = 0.1227E+00 +/- 0.1308E-01 ( 10.666 %)
Born = 0.3589E-01 +/- 0.2743E-02 ( 7.643 %)
V 2 = 0.4876E-02 +/- 0.1309E-01 ( 268.529 %)
B 2 = 0.3589E-01 +/- 0.2743E-02 ( 7.643 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6527E+01 +/- 0.2754E-01 ( 0.422 %)
accumulated results Integral = 0.6428E+01 +/- 0.2800E-01 ( 0.436 %)
accumulated results Virtual = 0.4876E-02 +/- 0.1309E-01 ( 268.529 %)
accumulated results Virtual ratio = -.8271E-01 +/- 0.4603E-02 ( 5.565 %)
accumulated results ABS virtual = 0.1227E+00 +/- 0.1308E-01 ( 10.666 %)
accumulated results Born = 0.3589E-01 +/- 0.2743E-02 ( 7.643 %)
accumulated results V 2 = 0.4876E-02 +/- 0.1309E-01 ( 268.529 %)
accumulated results B 2 = 0.3589E-01 +/- 0.2743E-02 ( 7.643 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 404 256 0.3212E-01 0.3146E-01 0.5000E-02
channel 2 : 1 F 227 256 0.2429E-01 0.2427E-01 0.5000E-02
channel 3 : 2 T 5836 1531 0.7972E+00 0.7723E+00 0.5000E-02
channel 4 : 2 T 6138 1597 0.8141E+00 0.8033E+00 0.5000E-02
channel 5 : 3 T 18252 4996 0.2426E+01 0.2389E+01 0.5000E-02
channel 6 : 3 T 18301 4848 0.2433E+01 0.2408E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5269989648932460 +/- 2.7536621676003063E-002
Final result: 6.4283937814494729 +/- 2.8004565774029978E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 254
Stability unknown: 0
Stable PS point: 254
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 254
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 254
counters for the granny resonances
ntot 0
Time spent in Born : 0.232628763
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.44233894
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.49730539
Time spent in Integrated_CT : 1.15746212
Time spent in Virtuals : 4.33220100
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.59288168
Time spent in N1body_prefactor : 4.48143333E-02
Time spent in Adding_alphas_pdf : 0.855245590
Time spent in Reweight_scale : 3.68256378
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.21369791
Time spent in Applying_cuts : 0.251131147
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.88876724
Time spent in Other_tasks : 2.06042671
Time spent in Total : 31.2514648
Time in seconds: 36
LOG file for integration channel /P0_dxd_wpwm/all_G1_23, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
15463
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9836011002712993E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 23
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.1321E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 256 0.8846E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1531 0.1932E+02 0.0000E+00 0.5972E-02
channel 4 : 2 F 0 1597 0.2029E+02 0.0000E+00 0.6050E-02
channel 5 : 3 F 0 4996 0.6184E+02 0.0000E+00 0.5635E-02
channel 6 : 3 F 0 4848 0.6237E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 4 , 72611
with seed 52
Ranmar initialization seeds 5028 21880
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.806642D+02 0.806642D+02 1.00
muF1, muF1_reference: 0.806642D+02 0.806642D+02 1.00
muF2, muF2_reference: 0.806642D+02 0.806642D+02 1.00
QES, QES_reference: 0.806642D+02 0.806642D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12022668315510489
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
REAL 2: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
alpha_s value used for the virtuals is (for the first PS point): 0.11987766525579376
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -8.0706121210120116E-005 OLP: -8.0706121210119940E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.8786684321775600E-004 OLP: -1.8786684321773893E-004
FINITE:
OLP: -1.9155076933919567E-002
BORN: 0.29420689062266447
MOMENTA (Exyzm):
1 103.54488875458148 0.0000000000000000 0.0000000000000000 103.54488875458148 0.0000000000000000
2 103.54488875458148 -0.0000000000000000 -0.0000000000000000 -103.54488875458148 0.0000000000000000
3 103.54488875458148 0.53359582526530214 -17.040709964315898 62.957588149531112 80.418999999999997
4 103.54488875458148 -0.53359582526530214 17.040709964315898 -62.957588149531112 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -8.0706121210120116E-005 OLP: -8.0706121210119940E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.8786684321775589E-004 OLP: -1.8786684321773893E-004
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6591E+01 +/- 0.4807E-01 ( 0.729 %)
Integral = 0.6510E+01 +/- 0.4830E-01 ( 0.742 %)
Virtual = -.2234E-02 +/- 0.9619E-02 ( 430.654 %)
Virtual ratio = -.7949E-01 +/- 0.4980E-02 ( 6.265 %)
ABS virtual = 0.9663E-01 +/- 0.9609E-02 ( 9.944 %)
Born = 0.3226E-01 +/- 0.2409E-02 ( 7.467 %)
V 2 = -.2234E-02 +/- 0.9619E-02 ( 430.654 %)
B 2 = 0.3226E-01 +/- 0.2409E-02 ( 7.467 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6591E+01 +/- 0.4807E-01 ( 0.729 %)
accumulated results Integral = 0.6510E+01 +/- 0.4830E-01 ( 0.742 %)
accumulated results Virtual = -.2234E-02 +/- 0.9619E-02 ( 430.654 %)
accumulated results Virtual ratio = -.7949E-01 +/- 0.4980E-02 ( 6.265 %)
accumulated results ABS virtual = 0.9663E-01 +/- 0.9609E-02 ( 9.944 %)
accumulated results Born = 0.3226E-01 +/- 0.2409E-02 ( 7.467 %)
accumulated results V 2 = -.2234E-02 +/- 0.9619E-02 ( 430.654 %)
accumulated results B 2 = 0.3226E-01 +/- 0.2409E-02 ( 7.467 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 429 256 0.3622E-01 0.3622E-01 0.5000E-02
channel 2 : 1 T 255 256 0.3435E-01 0.3435E-01 0.5000E-02
channel 3 : 2 T 5610 1531 0.7826E+00 0.7672E+00 0.5000E-02
channel 4 : 2 T 6054 1597 0.7923E+00 0.7849E+00 0.5000E-02
channel 5 : 3 T 18416 4996 0.2506E+01 0.2475E+01 0.5000E-02
channel 6 : 3 T 18387 4848 0.2440E+01 0.2413E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5914729704543156 +/- 4.8074784700460428E-002
Final result: 6.5102823139076795 +/- 4.8299345461475046E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 243
Stability unknown: 0
Stable PS point: 243
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 243
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 243
counters for the granny resonances
ntot 0
Time spent in Born : 0.235089362
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.47562265
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.49725103
Time spent in Integrated_CT : 1.17183399
Time spent in Virtuals : 4.13956594
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.60589290
Time spent in N1body_prefactor : 4.48144451E-02
Time spent in Adding_alphas_pdf : 0.864998519
Time spent in Reweight_scale : 3.69842434
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.19747162
Time spent in Applying_cuts : 0.257859349
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.91837215
Time spent in Other_tasks : 2.07094383
Time spent in Total : 31.1781406
Time in seconds: 36
LOG file for integration channel /P0_dxd_wpwm/all_G1_24, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
15462
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9836011002712993E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 24
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.1321E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 256 0.8846E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1531 0.1932E+02 0.0000E+00 0.5972E-02
channel 4 : 2 F 0 1597 0.2029E+02 0.0000E+00 0.6050E-02
channel 5 : 3 F 0 4996 0.6184E+02 0.0000E+00 0.5635E-02
channel 6 : 3 F 0 4848 0.6237E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 4 , 75768
with seed 52
Ranmar initialization seeds 5028 25037
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.805405D+02 0.805405D+02 1.00
muF1, muF1_reference: 0.805405D+02 0.805405D+02 1.00
muF2, muF2_reference: 0.805405D+02 0.805405D+02 1.00
QES, QES_reference: 0.805405D+02 0.805405D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12025506303046145
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.11994371562644932
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -6.0488434090306196E-005 OLP: -6.0488434090305877E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.5943270823362657E-004 OLP: -1.5943270823351105E-004
FINITE:
OLP: -1.2592595962413460E-002
BORN: 0.22050513449915898
MOMENTA (Exyzm):
1 95.212198940821068 0.0000000000000000 0.0000000000000000 95.212198940821068 0.0000000000000000
2 95.212198940821068 -0.0000000000000000 -0.0000000000000000 -95.212198940821068 0.0000000000000000
3 95.212198940821068 1.6450845734035617 15.478541083345945 48.537158227733215 80.418999999999997
4 95.212198940821068 -1.6450845734035617 -15.478541083345945 -48.537158227733215 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -6.0488434090306196E-005 OLP: -6.0488434090305877E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.5943270823362652E-004 OLP: -1.5943270823351105E-004
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
ABS integral = 0.6559E+01 +/- 0.2696E-01 ( 0.411 %)
Integral = 0.6468E+01 +/- 0.2740E-01 ( 0.424 %)
Virtual = -.5719E-03 +/- 0.1025E-01 ( ******* %)
Virtual ratio = -.8088E-01 +/- 0.3901E-02 ( 4.823 %)
ABS virtual = 0.1131E+00 +/- 0.1024E-01 ( 9.050 %)
Born = 0.3672E-01 +/- 0.2621E-02 ( 7.138 %)
V 2 = -.5719E-03 +/- 0.1025E-01 ( ******* %)
B 2 = 0.3672E-01 +/- 0.2621E-02 ( 7.138 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6559E+01 +/- 0.2696E-01 ( 0.411 %)
accumulated results Integral = 0.6468E+01 +/- 0.2740E-01 ( 0.424 %)
accumulated results Virtual = -.5719E-03 +/- 0.1025E-01 ( ******* %)
accumulated results Virtual ratio = -.8088E-01 +/- 0.3901E-02 ( 4.823 %)
accumulated results ABS virtual = 0.1131E+00 +/- 0.1024E-01 ( 9.050 %)
accumulated results Born = 0.3672E-01 +/- 0.2621E-02 ( 7.138 %)
accumulated results V 2 = -.5719E-03 +/- 0.1025E-01 ( ******* %)
accumulated results B 2 = 0.3672E-01 +/- 0.2621E-02 ( 7.138 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 378 256 0.3586E-01 0.3056E-01 0.6240E-02
channel 2 : 1 T 259 256 0.2999E-01 0.2998E-01 0.5000E-02
channel 3 : 2 T 5831 1531 0.8101E+00 0.8020E+00 0.5000E-02
channel 4 : 2 T 6027 1597 0.7975E+00 0.7817E+00 0.5000E-02
channel 5 : 3 T 18212 4996 0.2433E+01 0.2405E+01 0.5000E-02
channel 6 : 3 T 18437 4848 0.2453E+01 0.2419E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5589597071081016 +/- 2.6963805581422143E-002
Final result: 6.4684739023881379 +/- 2.7404917703688945E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 267
Stability unknown: 0
Stable PS point: 267
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 267
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 267
counters for the granny resonances
ntot 0
Time spent in Born : 0.235272437
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.45702791
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.50417781
Time spent in Integrated_CT : 1.16561747
Time spent in Virtuals : 4.53469038
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.60613012
Time spent in N1body_prefactor : 4.50911373E-02
Time spent in Adding_alphas_pdf : 0.857603669
Time spent in Reweight_scale : 3.68333268
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.22162890
Time spent in Applying_cuts : 0.257293940
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.93137455
Time spent in Other_tasks : 2.08622551
Time spent in Total : 31.5854664
Time in seconds: 37
LOG file for integration channel /P0_dxd_wpwm/all_G1_25, 1
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118/NNPDF31_nlo_as_0118_0000.dat
NNPDF31_nlo_as_0118 PDF set, member #0, version 1; LHAPDF ID = 303400
15459
===============================================================
INFO: MadFKS read these parameters from FKS_params.dat
===============================================================
> IRPoleCheckThreshold = 1.0000000000000001E-005
> PrecisionVirtualAtRunTime = 1.0000000000000000E-003
> SelectedContributionTypes = All
> VetoedContributionTypes = None
> QCD_squared_selected = All
> QED_squared_selected = All
> SelectedCouplingOrders = All
> NHelForMCoverHels = -1
> VirtualFraction = 1.0000000000000000
> MinVirtualFraction = 5.0000000000000001E-003
> SeparateFlavourConfigs = F
> UsePolyVirtual = F
===============================================================
SPLIT TYPE USED: F T
A PDF is used, so alpha_s(MZ) is going to be modified
Old value of alpha_s from param_card: 0.11799999999999999
New value of alpha_s from PDF lhapdf : 0.11800209145668880
WARNING: the value of maxjetflavorspecified in the run_card ( 4) is inconsistent with the number of light flavours inthe model. Hence it will be set to: 5
*****************************************************
* MadGraph/MadEvent *
* -------------------------------- *
* http://madgraph.hep.uiuc.edu *
* http://madgraph.phys.ucl.ac.be *
* http://madgraph.roma2.infn.it *
* -------------------------------- *
* *
* PARAMETER AND COUPLING VALUES *
* *
*****************************************************
External Params
---------------------------------
MU_R = 1000.0000000000000
mdl_MT = 173.30000000000001
mdl_MZ = 91.188000000000002
mdl_MW = 80.418999999999997
mdl_MH = 125.00000000000000
aEWM1 = 128.93000000000001
aS = 0.11799999999999999
mdl_ymt = 173.30000000000001
mdl_WT = 0.0000000000000000
mdl_WZ = 0.0000000000000000
mdl_WW = 0.0000000000000000
mdl_WH = 0.0000000000000000
Internal Params
---------------------------------
mdl_MC__exp__2 = 0.0000000000000000
mdl_SCKM22__exp__2 = 1.0000000000000000
mdl_CKM33 = 1.0000000000000000
mdl_MS__exp__2 = 0.0000000000000000
mdl_vep = 0.0000000000000000
mdl_SCKM22 = 1.0000000000000000
mdl_lhv = 1.0000000000000000
mdl_LogSwitch = 1.0000000000000000
mdl_CKM11 = 1.0000000000000000
mdl_Ql__exp__2 = 1.0000000000000000
mdl_CMSParam = 0.0000000000000000
mdl_epsUV = 1.0000000000000000
mdl_yb = 0.0000000000000000
mdl_conjg__CKM22 = 1.0000000000000000
mdl_Ql__exp__4 = 1.0000000000000000
mdl_Me__exp__2 = 0.0000000000000000
mdl_CKM22 = 1.0000000000000000
mdl_MU__exp__2 = 0.0000000000000000
mdl_conjg__CKM33 = 1.0000000000000000
mdl_SCKM11 = 1.0000000000000000
mdl_MB__exp__2 = 0.0000000000000000
mdl_conjg__CKM11 = 1.0000000000000000
mdl_SCKM33 = 1.0000000000000000
mdl_epsIR = 1.0000000000000000
mdl_MB__exp__4 = 0.0000000000000000
mdl_SCKM33__exp__2 = 1.0000000000000000
mdl_ep = 1.0000000000000000E-010
mdl_Ncol = 3.0000000000000000
mdl_CA = 3.0000000000000000
mdl_TF = 0.50000000000000000
mdl_CF = 1.3333333333333333
mdl_complexi = (0.0000000000000000,1.0000000000000000)
mdl_MZ__exp__2 = 8315.2513440000002
mdl_MW__exp__2 = 6467.2155609999991
mdl_sqrt__2 = 1.4142135623730951
mdl_sw2 = 0.22224653309289089
mdl_cw = 0.88190332061236121
mdl_sqrt__sw2 = 0.47143030565810135
mdl_sw = 0.47143030565810135
mdl_MH__exp__2 = 15625.000000000000
mdl_I3d = -0.50000000000000000
mdl_I3u = 0.50000000000000000
mdl_I3l = -0.50000000000000000
mdl_I3v = 0.50000000000000000
mdl_Qd = -0.33333333333333331
mdl_Qu = 0.66666666666666663
mdl_Ql = -1.0000000000000000
mdl_Ncol__exp__2 = 9.0000000000000000
mdl_sw__exp__2 = 0.22224653309289086
mdl_MT__exp__2 = 30032.890000000003
mdl_cw__exp__2 = 0.77775346690710911
mdl_MT__exp__4 = 901974481.75210023
mdl_sw__exp__4 = 4.9393521471809435E-002
mdl_MW__exp__4 = 41824877.112440534
mdl_MT__exp__3 = 5204699.8370000012
mdl_MH__exp__4 = 244140625.00000000
mdl_MZ__exp__4 = 69143404.913893804
mdl_MT__exp__6 = 27088900393267.840
mdl_MW__exp__6 = 270490496098.48813
mdl_MT__exp__8 = 8.1355796573196979E+017
mdl_MW__exp__8 = 1749320345470752.0
mdl_MT__exp__10 = 2.4433496893452020E+022
mdl_MW__exp__10 = 1.1313231759402340E+019
mdl_MZ__exp__6 = 574944790638.99182
mdl_sw__exp__3 = 0.10477375102743487
mdl_MZ__exp__3 = 758251.13955667207
mdl_cw__exp__4 = 0.60490045528602765
mdl_cw__exp__6 = 0.47046342623239684
mdl_MH__exp__6 = 3814697265625.0000
mdl_cw__exp__3 = 0.68590336508315575
mdl_Qd__exp__3 = -3.7037037037037028E-002
mdl_Qd__exp__2 = 0.11111111111111110
mdl_I3d__exp__2 = 0.25000000000000000
mdl_I3d__exp__3 = -0.12500000000000000
mdl_Qu__exp__3 = 0.29629629629629622
mdl_Qu__exp__2 = 0.44444444444444442
mdl_I3u__exp__2 = 0.25000000000000000
mdl_I3u__exp__3 = 0.12500000000000000
mdl_Ql__exp__3 = -1.0000000000000000
mdl_I3l__exp__2 = 0.25000000000000000
mdl_I3l__exp__3 = -0.12500000000000000
mdl_I3v__exp__3 = 0.12500000000000000
mdl_MW__exp__3 = 520087.00820005889
mdl_sw__exp__6 = 1.0977538904358909E-002
mdl_sw__exp__8 = 2.4397199633860995E-003
mdl_Qu__exp__4 = 0.19753086419753083
mdl_Qd__exp__4 = 1.2345679012345677E-002
mdl_I3l__exp__4 = 6.2500000000000000E-002
mdl_I3u__exp__4 = 6.2500000000000000E-002
mdl_I3d__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__4 = 6.2500000000000000E-002
mdl_I3v__exp__2 = 0.25000000000000000
mdl_aEW = 7.7561467462964398E-003
mdl_Gf = (1.19874983504616246E-005,0.0000000000000000)
mdl_sqrt__aEW = 8.8068988561788533E-002
mdl_ee = 0.31219643584339185
mdl_g1 = 0.35400301659666522
mdl_gw = 0.66223242777652103
mdl_vev = 242.87243157213206
mdl_vev__exp__2 = 58987.018017759969
mdl_lam = 0.13244439645428069
mdl_yt = 1.0091026337275697
mdl_muH = 88.388347648318430
mdl_I233 = (1.0091026337275697,0.0000000000000000)
mdl_I333 = (1.0091026337275697,0.0000000000000000)
mdl_AxialZUp = -0.18772818184783885
mdl_AxialZDown = 0.18772818184783885
mdl_VectorZUp = 7.6469681635801659E-002
mdl_VectorZDown = -0.13209893174182025
mdl_AxialG0Up3 = -0.71354331522196934
mdl_VectorHUp3 = (-0.0000000000000000,-0.71354331522196934)
mdl_VectorAUp = 0.20813095722892791
mdl_VectorADown = -0.10406547861446395
mdl_VectorWmDxU = 0.23413452020120429
mdl_AxialWmDxU = -0.23413452020120429
mdl_VectorWpUxD = 0.23413452020120429
mdl_AxialWpUxD = -0.23413452020120429
mdl_VectorGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_AxialGpUx3D3 = (-0.50455131686378485,0.0000000000000000)
mdl_VectorGmDx3U3 = (0.50455131686378485,0.0000000000000000)
mdl_AxialGmDx3U3 = (-0.50455131686378485,0.0000000000000000)
mdl_ee__exp__2 = 9.7466614553317080E-002
mdl_R2SS_FIN_ = 2.7771616430643108E-003
mdl_R2VV_FIN_ = 9.8754327521535911E-003
mdl_ee__exp__3 = 3.0428729677267258E-002
mdl_R2SFF_FIN_ = 3.0830749076334492E-003
mdl_ee__exp__4 = 9.4997409524848805E-003
mdl_R24S_FIN_ = 9.6252499760135740E-004
mdl_HiggsTadpole_UV_EW_1EPS_ = (256384.68250851057,0.0000000000000000)
mdl_tMass_UV_EW_1EPS_ = (0.98995784325602909,0.0000000000000000)
mdl_WMass2_UV_EW_1EPS_ = (-122.97040828156959,0.0000000000000000)
mdl_ZMass2_UV_EW_1EPS_ = (-131.83588536647306,0.0000000000000000)
mdl_tWcft_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_dWcft_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_1EPS_ = (-7.34972508883141758E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_1EPS_ = (-7.83874748570571384E-005,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_1EPS_ = (-1.95968687142642846E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_1EPS_ = (-5.87774289321637850E-003,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_1EPS_ = (-1.83059772155613233E-003,0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_1EPS_ = (-5.26052834620677982E-003,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_1EPS_ = (-2.03633590389266537E-003,0.0000000000000000)
mdl_GpWcft_UV_EW_1EPS_ = (-1.47826190065692281E-002,0.0000000000000000)
mdl_WWcft_UV_EW_1EPS_ = (-3.54873046323945802E-003,0.0000000000000000)
mdl_ZZWcft_UV_EW_1EPS_ = (-3.00516333930618204E-003,0.0000000000000000)
mdl_AZWcft_UV_EW_1EPS_ = (-7.20327294279212577E-003,0.0000000000000000)
mdl_ZAWcft_UV_EW_1EPS_ = (4.61848593104902116E-003,0.0000000000000000)
mdl_AAWcft_UV_EW_1EPS_ = (7.54373335233954985E-004,0.0000000000000000)
mdl_eCoup_UV_EW_1EPS_ = (1.13156000285093193E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_1EPS_ = (2.60641210157978431E-003,0.0000000000000000)
Internal Params evaluated point by point
----------------------------------------
mdl_sqrt__aS = 0.34351128074635334
mdl_G__exp__4 = 2.1987899468922913
mdl_G__exp__2 = 1.4828317324943823
mdl_G__exp__3 = 1.8056676068262196
mdl_MU_R__exp__2 = 1000000.0000000000
mdl_HiggsTadpole_UV_EW_FIN_ = (1133646.1822185873,0.0000000000000000)
mdl_tMass_UV_EW_FIN_ = (4.5486280148775835,0.0000000000000000)
mdl_WMass2_UV_EW_FIN_ = (-477.51223712242023,0.0000000000000000)
mdl_ZMass2_UV_EW_FIN_ = (-385.12955353367431,0.0000000000000000)
mdl_tWcft_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_dWcft_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_tWcft_BAR_UV_EW_R_FIN_ = (-3.60130746177152739E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_R_FIN_ = (-3.36255924164604474E-004,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_R_FIN_ = (-8.40639810411511186E-005,0.0000000000000000)
mdl_tWcft_BAR_UV_EW_L_FIN_ = (-2.48686134569428043E-002,0.0000000000000000)
mdl_cWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_uWcft_BAR_UV_EW_L_FIN_ = (-8.20166283160201660E-003,-0.0000000000000000)
mdl_bWcft_BAR_UV_EW_L_FIN_ = (-2.13238746930339181E-002,0.0000000000000000)
mdl_sWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_dWcft_BAR_UV_EW_L_FIN_ = (-9.08421049324912092E-003,-0.0000000000000000)
mdl_GpWcft_UV_EW_FIN_ = (-5.58871939481350097E-002,0.0000000000000000)
mdl_WWcft_UV_EW_FIN_ = (-1.46524692705213185E-002,0.0000000000000000)
mdl_ZZWcft_UV_EW_FIN_ = (-1.01950909161341863E-002,0.0000000000000000)
mdl_AZWcft_UV_EW_FIN_ = (-3.65197478696778557E-002,0.0000000000000000)
mdl_ZAWcft_UV_EW_FIN_ = (2.32818320295721908E-002,-0.0000000000000000)
mdl_AAWcft_UV_EW_FIN_ = (5.89919023924206833E-003,0.0000000000000000)
mdl_eCoup_UV_EW_FIN_ = (8.53848558153882074E-003,0.0000000000000000)
mdl_SWCoup_UV_EW_FIN_ = (2.27007143175545385E-002,0.0000000000000000)
Couplings of loop_qcd_qed_sm_FAconv4
---------------------------------
c_UVWmWpMass1EW -0.00000E+00 -0.14652E-01
c_UVWmWpMass2EW -0.00000E+00 -0.57227E+03
c_UVZMass1EW = -0.00000E+00 -0.10195E-01
c_UVZMass2EW = -0.00000E+00 -0.46990E+03
c_UVAMass1EW = 0.00000E+00 0.58992E-02
c_UVAZMass1EW_c -0.00000E+00 -0.66190E-02
c_UVAZMass2EW_c 0.00000E+00 0.96797E+02
c_UVGmWpMass1EW -0.00000E+00 -0.29026E+01
c_UVGmWpMass2EW 0.00000E+00 0.29026E+01
c_UVG0Mass2EW = 0.00000E+00 0.46677E+04
c_UVGmGpMass1EW 0.00000E+00 0.55887E-01
c_UVccxMass1EW -0.00000E+00 0.82017E-02
c_UVccxMass2EW 0.00000E+00 -0.33626E-03
c_UVttxMass1EW 0.00000E+00 0.24869E-01
c_UVttxMass2EW -0.00000E+00 -0.36013E-01
c_UVttxMass3EW 0.00000E+00 0.72677E+00
c_UVddxMass1EW -0.00000E+00 0.90842E-02
c_UVbbxMass2EW -0.00000E+00 -0.84064E-04
c_UVWpWmAA1EW = 0.00000E+00 0.68674E-02
c_UVWpWmAA2EW = -0.00000E+00 -0.34337E-02
c_UVAWpWm1EW_c0 0.00000E+00 0.77865E-02
c_UVZWpWm1EW = -0.00000E+00 -0.37006E-01
c_UVGmWpA1EW_c0 0.00000E+00 0.13677E+01
c_UVcxcA1EW_c0 0.00000E+00 0.23915E-02
c_UVcxcA2EW_c0 -0.00000E+00 -0.36162E-02
c_UVdxdA1EW_c0 -0.00000E+00 -0.34729E-02
c_UVbxbA1EW_c0 -0.00000E+00 -0.47466E-02
c_UVbxbA2EW_c0 0.00000E+00 0.18343E-02
c_UVcxcZ1EW = 0.00000E+00 -0.17259E-01
c_UVcxcZ2EW = 0.00000E+00 -0.34333E-02
c_UVdxdZ1EW = 0.00000E+00 0.16262E-01
c_UVbxbZ1EW = 0.00000E+00 0.20176E-01
c_UVbxbZ2EW = 0.00000E+00 0.17307E-02
c_UVdxuWm1EW = -0.00000E+00 -0.26028E-01
c_UVbxtWm1EW = -0.00000E+00 -0.32796E-01
c_UVcxsWp1EW = -0.00000E+00 -0.26028E-01
GC_1_c0 = 0.00000E+00 0.10407E+00
GC_2_c0 = -0.00000E+00 -0.20813E+00
GC_3 = -0.00000E+00 -0.31220E+00
GC_5 = 0.00000E+00 0.97467E-01
GC_6 = 0.00000E+00 0.19493E+00
GC_7_c0 = -0.00000E+00 -0.55259E-01
GC_8_c0 = 0.55259E-01 -0.00000E+00
GC_30_c0 = 0.00000E+00 0.10091E+01
GC_49 = -0.00000E+00 -0.26489E+00
GC_50 = -0.00000E+00 -0.52978E+00
GC_52 = 0.00000E+00 0.21928E+00
GC_53 = -0.00000E+00 -0.43855E+00
GC_54 = 0.00000E+00 0.34109E+00
GC_55_c0 = -0.00000E+00 -0.33112E+00
GC_56_c0 = -0.33112E+00 0.00000E+00
GC_68 = -0.00000E+00 -0.29201E+00
GC_70_c0 = 0.00000E+00 0.58402E+00
GC_72_c0 = -0.00000E+00 -0.10337E+00
GC_73_c0 = 0.10337E+00 -0.00000E+00
GC_75_c0 = 0.00000E+00 0.36466E+00
GC_76 = -0.00000E+00 -0.27815E-01
GC_77 = 0.00000E+00 0.83444E-01
GC_78_c0 = 0.37546E+00 0.00000E+00
GC_79 = 0.00000E+00 -0.20857E+00
GC_80 = 0.00000E+00 0.37546E+00
GC_81_c0 = -0.00000E+00 -0.13023E+00
GC_82 = 0.00000E+00 0.87002E-01
GC_83 = 0.00000E+00 0.28193E+00
GC_84_c0 = -0.00000E+00 -0.13421E+02
GC_86 = -0.00000E+00 -0.64334E+02
GC_89 = -0.00000E+00 -0.26628E+02
GC_90 = 0.00000E+00 0.53256E+02
GC_92_c0 = 0.00000E+00 0.25107E+02
GC_94_c0 = 0.00000E+00 0.30194E+02
GC_95_c0 = -0.00000E+00 -0.16773E+02
GC_99 = 0.00000E+00 0.68474E+02
GC_116 = -0.00000E+00 -0.71354E+00
GC_117 = 0.71354E+00 0.00000E+00
GC_124 = 0.00000E+00 0.46827E+00
R2_HHboson2 = -0.00000E+00 -0.38021E-03
R2_GmGpboson1 = -0.00000E+00 -0.15974E+02
R2_GmGptb1 = 0.00000E+00 0.58099E+03
R2_GmGptb2 = -0.00000E+00 -0.64484E-02
R2_AAboson1 = 0.00000E+00 0.61721E-03
R2_AAboson2 = -0.00000E+00 -0.41148E-03
R2_AAboson3 = -0.00000E+00 -0.79833E+01
R2_AAU = 0.00000E+00 0.54864E-03
R2_AAD = 0.00000E+00 0.13716E-03
R2_AAt3 = -0.00000E+00 -0.98863E+02
R2_AZboson1_c0 -0.00000E+00 -0.11546E-02
R2_AZboson2_c0 0.00000E+00 0.76975E-03
R2_AZboson3_c0 0.00000E+00 0.14934E+02
R2_AZl_c0 = -0.00000E+00 -0.27468E-04
R2_AZU_c0 = -0.00000E+00 -0.20157E-03
R2_AZD_c0 = -0.00000E+00 -0.17411E-03
R2_AZt3_c0 = 0.00000E+00 0.36323E+02
R2_ZZboson1 = 0.00000E+00 0.21599E-02
R2_ZZboson2 = -0.00000E+00 -0.14400E-02
R2_ZZboson3 = -0.00000E+00 -0.27938E+02
R2_ZZl = 0.00000E+00 0.15061E-03
R2_ZZU = 0.00000E+00 0.52040E-03
R2_ZZD = 0.00000E+00 0.66735E-03
R2_ZZt3 = -0.00000E+00 -0.93775E+02
R2_ZZv = 0.00000E+00 0.29756E-03
R2_WWboson1 = 0.00000E+00 0.27772E-02
R2_WWboson2 = -0.00000E+00 -0.18514E-02
R2_WWboson3 = -0.00000E+00 -0.35921E+02
R2_WWl = 0.00000E+00 0.46286E-03
R2_WWtb3 = -0.00000E+00 -0.12511E+03
R2_UUCm = 0.00000E+00 0.35271E-03
R2_DDCm = 0.00000E+00 0.88176E-04
R2_QQCp0 = 0.00000E+00 0.71633E-03
R2_QQCpcs = 0.00000E+00 0.13886E-02
R2_TTC0 = 0.00000E+00 0.30562E-01
R2_bbA2Cp_c0 = -0.00000E+00 -0.14909E-03
R2_bbA2Cp_t_c0 0.00000E+00 0.38205E-03
R2_bbA2Cm_c0 = -0.00000E+00 -0.18352E-04
R2_ccA2Cp_c0 = 0.00000E+00 0.29818E-03
R2_ccA2Cp_s_c0 0.00000E+00 0.57801E-03
R2_ccA2Cm_c0 = 0.00000E+00 0.14682E-03
R2_ddZ2Cp_u = -0.00000E+00 0.88821E-03
R2_bbZ2Cp = 0.00000E+00 0.45821E-03
R2_bbZ2Cp_t = -0.00000E+00 0.12469E-02
R2_bbZ2Cm = 0.00000E+00 -0.98104E-05
R2_ccZ2Cp = 0.00000E+00 -0.37851E-03
R2_ccZ2Cp_s = -0.00000E+00 -0.73372E-03
R2_ccZ2Cm = 0.00000E+00 0.78483E-04
R2_bxtW2Cp = -0.00000E+00 -0.19713E-02
R2_AAH = 0.00000E+00 -0.32870E-01
R2_AAHt = 0.00000E+00 -0.40706E+00
R2_WAGm_c0 = 0.00000E+00 0.34862E-01
R2_WAGmtb_c0 = 0.00000E+00 0.16190E+00
R2_AWW_c0 = 0.00000E+00 0.15895E-02
R2_AWWlv_c0 = 0.00000E+00 0.28901E-03
R2_AWWcs_c0 = 0.00000E+00 0.86702E-03
R2_ZWW = 0.00000E+00 -0.29735E-02
R2_ZWWlv = 0.00000E+00 -0.54064E-03
R2_ZWWcs = 0.00000E+00 -0.16219E-02
R2_AAWW1 = 0.00000E+00 0.12632E-02
R2_AAWW2 = -0.00000E+00 -0.81204E-03
R2_AAWW1lv = 0.00000E+00 0.27068E-03
R2_AAWW2lv = -0.00000E+00 -0.90227E-04
R2_AAWW1cs = 0.00000E+00 0.75189E-03
R2_AAWW2cs = -0.00000E+00 -0.33083E-03
c_UVWmWpMass1EW -0.00000E+00 -0.35487E-02
c_UVWmWpMass2EW -0.00000E+00 -0.14592E+03
c_UVZMass1EW_1e -0.00000E+00 -0.30052E-02
c_UVZMass2EW_1e -0.00000E+00 -0.15682E+03
c_UVAMass1EW_1e 0.00000E+00 0.75437E-03
c_UVAZMass1EW_c -0.00000E+00 -0.12924E-02
c_UVAZMass2EW_c 0.00000E+00 0.19202E+02
c_UVGmWpMass1EW -0.00000E+00 -0.75083E+00
c_UVG0Mass2EW_1 0.00000E+00 0.10556E+04
c_UVGmGpMass1EW 0.00000E+00 0.14783E-01
c_UVccxMass1EW_ 0.00000E+00 0.18306E-02
c_UVccxMass2EW_ -0.00000E+00 -0.78387E-04
c_UVttxMass1EW_ 0.00000E+00 0.58777E-02
c_UVttxMass2EW_ -0.00000E+00 -0.73497E-02
c_UVttxMass3EW_ 0.00000E+00 0.15620E+00
c_UVddxMass1EW_ 0.00000E+00 0.20363E-02
c_UVbbxMass2EW_ -0.00000E+00 -0.19597E-04
c_UVWpWmAA1EW_1 0.00000E+00 0.17877E-02
c_UVWpWmAA2EW_1 -0.00000E+00 -0.89387E-03
c_UVAWpWm1EW_c0 0.00000E+00 0.19855E-02
c_UVZWpWm1EW_1e -0.00000E+00 -0.53164E-02
c_UVGmWpA1EW_c0 0.00000E+00 0.39994E+00
c_UVcxcA1EW_c0_ 0.00000E+00 0.67708E-03
c_UVcxcA2EW_c0_ -0.00000E+00 -0.55462E-03
c_UVdxdA1EW_c0_ -0.00000E+00 -0.79346E-03
c_UVbxbA1EW_c0_ -0.00000E+00 -0.11290E-02
c_UVbxbA2EW_c0_ 0.00000E+00 0.28343E-03
c_UVcxcZ1EW_1ep 0.00000E+00 -0.21056E-02
c_UVcxcZ2EW_1ep 0.00000E+00 0.87213E-05
c_UVdxdZ1EW_1ep 0.00000E+00 0.22732E-02
c_UVbxbZ1EW_1ep 0.00000E+00 0.33044E-02
c_UVbxbZ2EW_1ep -0.00000E+00 -0.10902E-05
c_UVbxtWm1EW_1e -0.00000E+00 -0.54978E-02
c_UVcxsWp1EW_1e -0.00000E+00 -0.37953E-02
Collider parameters:
--------------------
Running at P P machine @ 100000.00000000000 GeV
PDF set = lhapdf
alpha_s(Mz)= 0.1180 running at 2 loops.
alpha_s(Mz)= 0.1180 running at 2 loops.
Renormalization scale set on event-by-event basis
Factorization scale set on event-by-event basis
Diagram information for clustering has been set-up for nFKSprocess 1
Diagram information for clustering has been set-up for nFKSprocess 2
Diagram information for clustering has been set-up for nFKSprocess 3
Diagram information for clustering has been set-up for nFKSprocess 4
Diagram information for clustering has been set-up for nFKSprocess 5
Diagram information for clustering has been set-up for nFKSprocess 6
AMP_SPLIT: 1 correspond to S.O. 0 4
AMP_SPLIT: 2 correspond to S.O. 0 6
getting user params
Number of phase-space points per iteration: 52488
Maximum number of iterations is: 1
Desired accuracy is: 1.9836011002712993E-003
Using adaptive grids: 2
Using Multi-channel integration
Do MC over helicities for the virtuals
Number of channels to integrate together: 6
Running Configuration Number(s): 1 1 2 2 3 3
initial-or-final 1 2 1 2 1 2
Splitting channel: 25
Weight multiplier: 4.0000000000000001E-002
doing the all of this channel
Normal integration (Sfunction != 1)
RESTART: Use old grids, but refil plots
about to integrate 7 52488 1
imode is -1
channel 1 : 1 F 0 256 0.1321E+01 0.0000E+00 0.5000E-02
channel 2 : 1 F 0 256 0.8846E+00 0.0000E+00 0.5000E-02
channel 3 : 2 F 0 1531 0.1932E+02 0.0000E+00 0.5972E-02
channel 4 : 2 F 0 1597 0.2029E+02 0.0000E+00 0.6050E-02
channel 5 : 3 F 0 4996 0.6184E+02 0.0000E+00 0.5635E-02
channel 6 : 3 F 0 4848 0.6237E+02 0.0000E+00 0.5000E-02
------- iteration 1
Update # PS points (even_rn): 52488 --> 49152
Using random seed offsets: 0 , 4 , 78925
with seed 52
Ranmar initialization seeds 5028 28194
initial-final FKS maps:
0 : 6 1 2 3 4 5 6
1 : 2 3 4 0 0 0 0
2 : 4 1 2 5 6 0 0
Total number of FKS directories is 6
For the Born we use nFKSprocesses:
1 2 3 4 1 2
tau_min 1 6 : 0.16084E+03 -- 0.16084E+03
tau_min 2 6 : 0.16084E+03 -- 0.16084E+03
tau_min 3 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 6 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 6 : 0.16084E+03 -- 0.16084E+03
tau_min 6 6 : 0.16084E+03 -- 0.16084E+03
Scale values (may change event by event):
muR, muR_reference: 0.808638D+02 0.808638D+02 1.00
muF1, muF1_reference: 0.808638D+02 0.808638D+02 1.00
muF2, muF2_reference: 0.808638D+02 0.808638D+02 1.00
QES, QES_reference: 0.808638D+02 0.808638D+02 1.00
muR_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF1_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
muF2_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
QES_reference [functional form]:
H_T/2 := sum_i mT(i)/2, i=final state
alpha_s= 0.12018102834021589
BORN: keeping split order 1
counterterm S.O 1 QCD
BORN: not keeping split order 1
counterterm S.O 2 QED
BORN: keeping split order 1
INFO: orders_tag_plot is computed as: + QCD * 1 + QED * 100
orders_tag_plot= 400 for QCD,QED, = 0 , 4 ,
Charge-linked born are used
Color-linked born are not used
orders_tag_plot= 600 for QCD,QED, = 0 , 6 ,
EW SUDAKOV WRAPPER HEL FILTER 1 -1 1 -1 1 T
SDK1: keeping split order 1
SDK2: keeping split order 1
SDK3: keeping split order 1
SDK4: keeping split order 1
SDK5: keeping split order 1
SDK6: keeping split order 1
SDK7: keeping split order 1
SDK8: keeping split order 1
SDK9: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 2 -1 1 -1 0 T
SDK_GOLDSTONE3: keeping split order 1
SDK22: keeping split order 1
SDK23: keeping split order 1
SDK24: keeping split order 1
SDK25: keeping split order 1
SDK26: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 3 -1 1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 4 -1 1 0 1 T
SDK_GOLDSTONE2: keeping split order 1
SDK17: keeping split order 1
SDK18: keeping split order 1
SDK19: keeping split order 1
SDK20: keeping split order 1
SDK21: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 5 -1 1 0 0 T
SDK_GOLDSTONE1: keeping split order 1
SDK10: keeping split order 1
SDK11: keeping split order 1
SDK12: keeping split order 1
SDK13: keeping split order 1
SDK14: keeping split order 1
SDK15: keeping split order 1
SDK16: keeping split order 1
EW SUDAKOV WRAPPER HEL FILTER 6 -1 1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 7 -1 1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 8 -1 1 1 0 T
#--------------------------------------------------------------------------
# FastJet release 3.3.4
# M. Cacciari, G.P. Salam and G. Soyez
# A software package for jet finding and analysis at colliders
# http://fastjet.fr
#
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].
#
# FastJet is provided without warranty under the GNU GPL v2 or higher.
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
EW SUDAKOV WRAPPER HEL FILTER 9 -1 1 1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 10 -1 -1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 11 -1 -1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 12 -1 -1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 13 -1 -1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 14 -1 -1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 15 -1 -1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 16 -1 -1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 17 -1 -1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 18 -1 -1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 19 1 1 -1 1 F
EW SUDAKOV WRAPPER HEL FILTER 20 1 1 -1 0 F
EW SUDAKOV WRAPPER HEL FILTER 21 1 1 -1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 22 1 1 0 1 F
EW SUDAKOV WRAPPER HEL FILTER 23 1 1 0 0 F
EW SUDAKOV WRAPPER HEL FILTER 24 1 1 0 -1 F
EW SUDAKOV WRAPPER HEL FILTER 25 1 1 1 1 F
EW SUDAKOV WRAPPER HEL FILTER 26 1 1 1 0 F
EW SUDAKOV WRAPPER HEL FILTER 27 1 1 1 -1 F
EW SUDAKOV WRAPPER HEL FILTER 28 1 -1 -1 1 T
EW SUDAKOV WRAPPER HEL FILTER 29 1 -1 -1 0 T
EW SUDAKOV WRAPPER HEL FILTER 30 1 -1 -1 -1 T
EW SUDAKOV WRAPPER HEL FILTER 31 1 -1 0 1 T
EW SUDAKOV WRAPPER HEL FILTER 32 1 -1 0 0 T
EW SUDAKOV WRAPPER HEL FILTER 33 1 -1 0 -1 T
EW SUDAKOV WRAPPER HEL FILTER 34 1 -1 1 1 T
EW SUDAKOV WRAPPER HEL FILTER 35 1 -1 1 0 T
EW SUDAKOV WRAPPER HEL FILTER 36 1 -1 1 -1 T
REAL 1: keeping split order 1
tau_min 1 5 : 0.16084E+03 -- 0.16084E+03
tau_min 2 5 : 0.16084E+03 -- 0.16084E+03
tau_min 3 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 5 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 5 : 0.16084E+03 -- 0.16084E+03
tau_min 6 5 : 0.16084E+03 -- 0.16084E+03
tau_min 1 3 : 0.16084E+03 -- 0.16084E+03
tau_min 2 3 : 0.16084E+03 -- 0.16084E+03
tau_min 3 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 3 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 3 : 0.16084E+03 -- 0.16084E+03
tau_min 6 3 : 0.16084E+03 -- 0.16084E+03
tau_min 1 2 : 0.16084E+03 -- 0.16084E+03
tau_min 2 2 : 0.16084E+03 -- 0.16084E+03
tau_min 3 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 2 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 2 : 0.16084E+03 -- 0.16084E+03
tau_min 6 2 : 0.16084E+03 -- 0.16084E+03
REAL 2: keeping split order 1
tau_min 1 1 : 0.16084E+03 -- 0.16084E+03
tau_min 2 1 : 0.16084E+03 -- 0.16084E+03
tau_min 3 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 1 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 1 : 0.16084E+03 -- 0.16084E+03
tau_min 6 1 : 0.16084E+03 -- 0.16084E+03
tau_min 1 4 : 0.16084E+03 -- 0.16084E+03
tau_min 2 4 : 0.16084E+03 -- 0.16084E+03
tau_min 3 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 4 4 : 0.16084E+03 0.16084E+03 0.16084E+03
tau_min 5 4 : 0.16084E+03 -- 0.16084E+03
tau_min 6 4 : 0.16084E+03 -- 0.16084E+03
REAL 3: keeping split order 1
alpha_s value used for the virtuals is (for the first PS point): 0.11974292577502174
==========================================================================================
{ }
{ [32m [0m }
{ [32m ,, [0m }
{ [32m`7MMM. ,MMF' `7MM `7MMF' [0m }
{ [32m MMMb dPMM MM MM [0m }
{ [32m M YM ,M MM ,6"Yb. ,M""bMM MM ,pW"Wq. ,pW"Wq.`7MMpdMAo. [0m }
{ [32m M Mb M' MM 8) MM ,AP MM MM 6W' `Wb 6W' `Wb MM `Wb [0m }
{ [32m M YM.P' MM ,pm9MM 8MI MM MM , 8M M8 8M M8 MM M8 [0m }
{ [32m M `YM' MM 8M MM `Mb MM MM ,M YA. ,A9 YA. ,A9 MM ,AP [0m }
{ [32m.JML. `' .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM `Ybmd9' `Ybmd9' MMbmmd' [0m }
{ [32m MM [0m }
{ [32m .JMML. [0m }
{ [32m[0mv3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301[32m [0m }
{ [32m [0m }
{ }
==========================================================================================
===============================================================
INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat
===============================================================
> MLReductionLib = 6|7|1
> CTModeRun = -1
> MLStabThres = 1.0000000000000000E-003
> NRotations_DP = 0
> NRotations_QP = 0
> CTStabThres = 1.0000000000000000E-002
> CTLoopLibrary = 2
> CTModeInit = 1
> CheckCycle = 3
> MaxAttempts = 10
> UseLoopFilter = F
> HelicityFilterLevel = 2
> ImprovePSPoint = 2
> DoubleCheckHelicityFilter = T
> LoopInitStartOver = F
> HelInitStartOver = F
> ZeroThres = 1.0000000000000001E-009
> OSThres = 1.0000000000000000E-008
> WriteOutFilters = T
> UseQPIntegrandForNinja = T
> UseQPIntegrandForCutTools = T
> IREGIMODE = 2
> IREGIRECY = T
> COLLIERMode = 1
> COLLIERRequiredAccuracy = 1.0000000000000000E-008
> COLLIERCanOutput = F
> COLLIERComputeUVpoles = T
> COLLIERComputeIRpoles = T
> COLLIERGlobalCache = -1
> COLLIERUseCacheForPoles = F
+----------------------------------------------------------------+
| |
| Ninja - version 1.1.0 |
| |
| Author: Tiziano Peraro |
| |
| Based on: |
| |
| P. Mastrolia, E. Mirabella and T. Peraro, |
| "Integrand reduction of one-loop scattering amplitudes |
| through Laurent series expansion," |
| JHEP 1206 (2012) 095 [arXiv:1203.0291 [hep-ph]]. |
| |
| T. Peraro, |
| "Ninja: Automated Integrand Reduction via Laurent |
| Expansion for One-Loop Amplitudes," |
| Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
| |
+----------------------------------------------------------------+
> COLLIERUseInternalStabilityTest = T
===============================================================
------------------------------------------------------------------------
| You are using CutTools - Version 1.9.3 |
| Authors: G. Ossola, C. Papadopoulos, R. Pittau |
| Published in JHEP 0803:042,2008 |
| http://www.ugr.es/~pittau/CutTools |
| |
| Compiler with 34 significant digits detetected |
----------------------------------------------------------------------
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
########################################################################
# #
# You are using OneLOop-3.6 #
# #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
# #
# author: Andreas van Hameren #
# date: 18-02-2015 #
# #
# Please cite #
# A. van Hameren, #
# Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716 #
# A. van Hameren, C.G. Papadopoulos and R. Pittau, #
# JHEP 0909:106,2009, arXiv:0903.4665 #
# in publications with results obtained with the help of this program. #
# #
########################################################################
VIRT: keeping split order 1
Sum of all split-orders
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -8.0958147791471965E-005 OLP: -8.0958147791472128E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.7291038860246138E-004 OLP: -1.7291038860273546E-004
FINITE:
OLP: -1.9345561711189181E-002
BORN: 0.29512563080918319
MOMENTA (Exyzm):
1 105.06336323065611 0.0000000000000000 0.0000000000000000 105.06336323065611 0.0000000000000000
2 105.06336323065611 -0.0000000000000000 -0.0000000000000000 -105.06336323065611 0.0000000000000000
3 105.06336323065611 13.819117235037684 14.129552609525520 64.656650657420528 80.418999999999997
4 105.06336323065611 -13.819117235037684 -14.129552609525520 -64.656650657420528 80.418999999999997
Not doing MC over helicities: HelForMCoverHels=-1
Splitorders 2
QCD: 0
QED: 6
---- POLES CANCELLED ----
COEFFICIENT DOUBLE POLE:
MadFKS: -8.0958147791471965E-005 OLP: -8.0958147791472128E-005
COEFFICIENT SINGLE POLE:
MadFKS: -1.7291038860246149E-004 OLP: -1.7291038860273546E-004
ABS integral = 0.6592E+01 +/- 0.3846E-01 ( 0.583 %)
Integral = 0.6507E+01 +/- 0.3876E-01 ( 0.596 %)
Virtual = 0.3474E-01 +/- 0.2535E-01 ( 72.975 %)
Virtual ratio = -.7862E-01 +/- 0.3881E-02 ( 4.936 %)
ABS virtual = 0.1399E+00 +/- 0.2535E-01 ( 18.118 %)
Born = 0.4685E-01 +/- 0.9051E-02 ( 19.321 %)
V 2 = 0.3474E-01 +/- 0.2535E-01 ( 72.975 %)
B 2 = 0.4685E-01 +/- 0.9051E-02 ( 19.321 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral = 0.6592E+01 +/- 0.3846E-01 ( 0.583 %)
accumulated results Integral = 0.6507E+01 +/- 0.3876E-01 ( 0.596 %)
accumulated results Virtual = 0.3474E-01 +/- 0.2535E-01 ( 72.975 %)
accumulated results Virtual ratio = -.7862E-01 +/- 0.3881E-02 ( 4.936 %)
accumulated results ABS virtual = 0.1399E+00 +/- 0.2535E-01 ( 18.118 %)
accumulated results Born = 0.4685E-01 +/- 0.9051E-02 ( 19.321 %)
accumulated results V 2 = 0.3474E-01 +/- 0.2535E-01 ( 72.975 %)
accumulated results B 2 = 0.4685E-01 +/- 0.9051E-02 ( 19.321 %)
accumulated result Chi^2 per DoF = 0.0000E+00
1: 0 1 2
2: 0 1 2 3 4
channel 1 : 1 T 357 256 0.3097E-01 0.3097E-01 0.5000E-02
channel 2 : 1 T 260 256 0.4713E-01 0.4111E-01 0.5017E-02
channel 3 : 2 T 5676 1531 0.7746E+00 0.7689E+00 0.5000E-02
channel 4 : 2 T 6062 1597 0.8131E+00 0.8058E+00 0.5000E-02
channel 5 : 3 T 18325 4996 0.2468E+01 0.2441E+01 0.7448E-02
channel 6 : 3 T 18476 4848 0.2458E+01 0.2419E+01 0.5000E-02
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
Eur.Phys.J. C75 (2015) 3, 132 (http://arxiv.org/abs/1412.7420)
-------
Final result [ABS]: 6.5921000049056033 +/- 3.8462894498261735E-002
Final result: 6.5071967804952919 +/- 3.8755921629168646E-002
chi**2 per D.o.F.: 0.0000000000000000
Satistics from MadLoop:
Total points tried: 273
Stability unknown: 0
Stable PS point: 273
Unstable PS point (and rescued): 0
Exceptional PS point (unstable and not rescued): 0
Double precision used: 273
Quadruple precision used: 0
Initialization phase-space points: 0
Unknown return code (100): 0
Unknown return code (10): 0
Unit return code distribution (1):
#Unit 6 = 273
counters for the granny resonances
ntot 0
Time spent in Born : 0.235323101
Time spent in PS_Generation : 0.00000000
Time spent in Reals_evaluation: 5.60486412
Time spent in MCsubtraction : 0.00000000
Time spent in Counter_terms : 1.50067914
Time spent in Integrated_CT : 1.16337252
Time spent in Virtuals : 4.58832264
Time spent in FxFx_cluster : 0.00000000
Time spent in Nbody_prefactor : 3.61410332
Time spent in N1body_prefactor : 4.51198593E-02
Time spent in Adding_alphas_pdf : 0.862085700
Time spent in Reweight_scale : 3.68414426
Time spent in Reweight_pdf : 0.00000000
Time spent in Filling_plots : 1.22569418
Time spent in Applying_cuts : 0.264921308
Time spent in Sum_ident_contr : 0.00000000
Time spent in Pick_unwgt : 0.00000000
Time spent in Write_events : 0.00000000
Time spent in EW_sudakov : 6.93155479
Time spent in Other_tasks : 2.09248924
Time spent in Total : 31.8126755
Time in seconds: 38